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NOTE POUR LE TOME / VOLUME NOTE:
84369879
SECUK1NUMAB FOR USE IN THE TREATMENT OF PSORIATIC
ARTHRITIS
This application is a division of application 2,813,849 filed November 4, 2011
and claims priority to US Provisional Patent Application No. 61/410,533, filed
November 5, 2010.
TECHNICAL FIELD
The disclosure relates to novel methods for treating rheumatoid arthritis,
which employ a
therapeutically effective amount of an IL-17 binding molecule, e.g., an IL-17
antibody, such as
the AIN457 antibody (which is also known as "secukinumab").
BACKGROUND OF THE DISCLOSURE
Rheumatoid arthritis (RA) is a chronic, inflammatory, systemic autoimmune
disease of
unknown etiology. It is characterized by symmetric synovitis leading to
cartilage damage and
joint destruction and can be complicated by numerous extra-articular
manifestations. Given the
presence of autoantibodies, such as rheumatoid factor (RP) and anti-
citrullinated protein
antibody (ACPA), RA is considered an autoimmune disease. RA is generally a
progressive
disease with functional status decline, significant morbidity and premature
mortality seen in
established RA. The disease can occur at any age, with a peak incidence
between the fourth and
sixth decades. The goal of long-term RA treatment is disease remission.
Disease-modifying antirheumatic drugs (DMARDs), a heterogenous collection of
agents
grouped by use and convention, are the first line of treatment for RA
patients. DMARDs are
used to reduce joint swelling and pain, decrease acute-phase markers, limit
the progression of
joint damage and to improve joint function. DMARDs, most often methotrexate
(MIX), are
prescribed upon disease diagnosis (i.e., early RA), usually before the
development of erosive
disease and the deformities seen in established RA. MIX therapy is initiated
if pain and
synovitis persist (especially if function is compromised), and additional
DMARDs (with or
without steroids) may be added to achieve disease control. Unfortunately, only
about 2/3 of
patients respond to DMARDS, and DMARDs only partially control established RA
disease.
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Radiological progression continues even in the 5 ¨ 20% of DMARD-treated RA
patients that
achieve remission or clinical improvement that approaches remission. DMARDS
also have
many adverse effects (e.g., liver damage, bone marrow suppression and severe
lung infection)
that limit their prolonged use.
Due to the inadequate responses and dangers associated with prolonged DMARD
treatment, biologics have been introduced as second line RA treatments. In
general, anti-TNF
agents (Cimzia , Enbrel , Humira , Remicade , Simponi0) are the first
biologics used in
DMARD-failure and DMARD-inadequate responder patients, and a TNF inhibitor is
often
combined with MTX (or another DMARD) to aggressively treat established RA.
Unfortunately,
30 ¨ 40% of patients with established RA fail to respond to TNF-a antagonists
and the majority
of those that respond initially do not achieve complete remission or lose
response over time.
Concerns have also been raised about the short and long-term tolerability and
safety of chronic
biologic treatment, most notably the reactivation of serious infections (e.g.,
tuberculosis
infections), liver toxicity, increased cardiovascular disease, induction (or
exacerbation of)
demyelinating conditions, and increased incidence of malignancy due to TNF-
alpha antagonisim.
M. Khraishi (2009) J. Rheumatol Suppl. 82:25-32; SaIliot et al. (2009) Ann.
Rheum. Dis. 68:25-
32. However, a TNF inhibitor is usually continued unless it becomes
ineffective or an adverse
event arises, at which point a clinician may switch to either a different TNF
inhibitor or a
biological with a different mechanism of action (e.g., Kineret [IL-1R
antagonist], MabThera
[CD20 antagonist], Orencia [CTLA4 fusion protein] or ActemraR [IL-6 receptor
antagonist]).
Scott et al. (2010) The Lancet 376:1095-1108.
Given the aforementioned problems with current RA therapy, there is a need to
develop
new treatments for RA patients.
SUMMARY OF THE DISCLOSURE
Secukinumab, a new biological in clinical development for RA, is a high-
affinity fully
human monoclonal anti-human antibody that inhibits Interleukin- I 7A activity.
In an RA proof-
of-concept (PoC) study, patients with active RA who were on a stable dose of
MTX were dosed
in rising single and then 2 doses (21 days apart) with seeukinumab at lmg/kg,
3mg/kg and
lOrng/kg intravenously. Hueber et al. (2010) Sci. Transl. Med. 2(52):52-72.
Treatment with
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secukinumab resulted in rapid improvement of the clinical manifestations of RA
in many
patients compared to placebo. These data provide evidence that neutralization
of IL-17A is
likely to be efficacious in RA patients with active RA. However, since patient
response to
biological treatment is variable and it is desirable to avoid providing drug
to patients who will be
resistant thereto, we have sought methods of treating RA that first identity
those patients most
likely to respond favorably to antagonism of 1L-17. We have identified an RA
subgroup having
patients that display an improved likelihood of responding to IL-17
antagonism, whom we have
named "high risk RA patients".
Thus, it is one object of the disclosure to provide methods of identifying and
treating
"high risk RA patients" using a therapeutically effective amount of an IL-17
antagonist, e.g., IL-
17 binding molecule (e.g., IL-17 antibody or antigen binding fragment thereof,
e.g.,
secukinumab) or IL-17 receptor binding molecule (e.g., IL-17 antibody or
antigen binding
fragment thereof).
It is another object of the disclosure to provide methods of determining the
likelihood that
an RA patient will respond to treatment with an IL-17 antagonist, e.g., IL-17
binding molecule
(e.g., IL-17 antibody or antigen binding fragment thereof, e.g., secukinumab)
or IL-17 receptor
binding molecule (e.g., IL-17 antibody or antigen binding fragment thereof),
by determining
whether that patient is a high risk RA patient.
It is another object of the disclosure to provide methods of treating an
inflammatory
arthritis, e.g., AS, RA and PsA, using a therapeutically effective amount of
an IL-17 antagonist,
e.g., IL-17 binding molecule (e.g., IL-17 antibody or antigen binding fragment
thereof, e.g.,
secukinumab) or IL-17 receptor binding molecule (e.g., 1L-17 antibody or
antigen binding
fragment thereof), by delivering such IL-7 antagonist as part of a therapeutic
regimen, e.g.,
during an induction regimen and a maintenance regiman.
Accordingly, disclosed herein are methods of treating rheumatoid arthritis
(RA),
comprising administering a therapeutically effective amount of an 1L-17
antagonist to a high risk
RA patient.
Disclosed herein are also methods of treating rheumatoid arthritis (RA),
comprising: a)
selecting a patient for treatment on the basis of the patient being a high
risk RA patient; and b)
administering a therapeutically effective amount of an IL-17 antagonist to the
patient.
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Disclosed herein are methods of treating rheumatoid arthritis (RA),
comprising: a)
assaying a sample from a patient for: i. rheumatoid factor (RF), anti-
citrullinated protein
antibody (ACPA), or RF and ACPA; and ii. C-reactive protein (CRP), an
erythrocyte
sedimentation rate (ESR), or both CRP and an ESR; and b) thereafter,
administering the patient
an 1L-17 antagonist to the patient if the patient is RF+, ACPA +, or RF+ and
ACPA + and the
patient has a high level of CRP, a high ESR, or a high level of CRP and a high
ESR.
Disclosed herein are methods of treating rheumatoid arthritis (RA), comprising
administering a therapeutically effective amount of an IL-17 antagonist to a
patient, provided
that the patient is selected for treatment on the basis of: a) being RF+,
ACPA+, or both RF+ and
ACPA +; and b) having a high level of CRP, a high ESR, or both a high level of
CRP and a high
ESR. In some embodiments, the step of administering comprises: a)
administering the IL-17
antagonist to the patient during an induction regimen; and b) thereafter
administering the 1L-17
antagonist to the patient during a maintenance regimen.
Disclosed herein are methods of treating rheumatoid arthritis (RA),
comprising: a)
administering a high risk RA patient three doses of about 10 mg/kg of an IL-17
antagonist, each
of the three doses being delivered every other weelc; and b) thereafter
administering about 75 mg
- about 150 mg of the IL-17 antagonist to the patient every month, beginning
one month from
delivery of the third intravenous dose.
Disclosed herein are therapeutic regimens for treating rheumatoid arthritis
(RA),
comprising: a) selecting a patient having RA based on the following criteria;
i. the patient is RF+,
ACPA+, or both RF+ and ACPA+; and ii. the patient has a high level of CRP, a
high ESR, or
both a high level of CRP and a high ESR; and b) administering the patient
three doses of about
mg/kg of an 1L-17 antagonist, the first dose being delivered during week zero,
the second
dose being delivered during week two, and the third dose being delivered
during week four; and
c) thereafter administering the patient about 75 mg - about 150 mg of the 1L-
17 antagonist twice
a month, monthly, every two months or every three months, beginning during
week eight.
Disclosed herein are methods of determining the likelihood that an RA patient
will
respond to treatment with an IL-17 antagonist, comprising assaying a sample
from the patient
for: a) rheumatoid factor (RF), anti-citrullinated protein antibody (ACPA), or
RF and ACPA;
and b) C-reactive protein (CRP), an erythrocyte sedimentation rate (ESR), or
both CRP and an
ESR, wherein the patient is likely to respond to treatment of RA with the IL-
17 antagonist if the
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patient is RF+, ACPA +, or RF+ and ACPA +; and the patient has a high level of
CRP, a high
ESR,, or a high level of CRP and a high ESR.
Disclosed herein are IL-17 antagonists for use in treating rheumatoid
arthritis (RA),
characterized in that the IL-17 antagonist is to be administered to a high
risk RA patient.
Disclosed herein are IL-17 antagonists for use in treating rheumatoid
arthritis (RA),
characterized in that the EL-17 antagonist is to be administered to a patient
selected for treatment
on the basis of the patient being a high risk RA patient.
Disclosed herein are IL-17 antagonists for use in treating a high risk RA
patient. In some
embodiments, the high risk RA patient: a) is seropositive for rheumatoid
factor (RF+), anti-
citrullinated protein antibody (ACPA+), or both RF+ and ACPA+; and b) has a
high level of C-
reactive protein (CRP), a high erythrocyte sedimentation rate (ESR), or both a
high level of CRP
and a high ESR. In some embodiments, a high level of CRP is > 10 mg/L, as
measured by
hsCRP. In some embodiments, a high ESR is > 28 mm/h.
Disclosed herein are IL-17 antagonists for use in treating rheumatoid
arthritis (RA),
characterized in that the IL-17 antagonist is to be administered to a patient,
provided that the
patient is selected for treatment on the basis of: a) being RF+, ACPA+, or
both RF+ and ACPA
+; and b) having a high level of CRP, a high ESR, or both a high level of CRP
and a high ESR.
Disclosed herein are IL-17 antagonists for use in treating rheumatoid
arthritis (RA),
characterized in that the IL-17 antagonist is to be: a) administered to a high
risk RA patient as
three doses of about 10 mg/kg, each of the three doses being delivered every
other week; and b)
thereafter administered to the patient as a dose of about 75 mg - about 150 mg
every month,
beginning one month from delivery of the third intravenous dose.
Disclosed herein are IL-17 antagonists for use in treating rheumatoid
arthritis (RA),
characterized in that: a) a sample from a patient is assayed for: i.
rheumatoid factor (RF), anti-
citrullinated protein antibody (ACPA), or RF and ACPA; and ii.C-reactive
protein (CRP), an
erythrocyte sedimentation rate (ESR), or both CRP and an ESR; and b) the IL-17
antagonist is
administered to the patient if the patient is RF+, ACPA +, or RF+ and ACM +
and the patient
has a high level of CRP, a high ESR, or a high level of CRP and a high ESR.
Disclosed herein are uses of an IL-17 antagonist for the manufacture of a
medicament for
treating RA, characterized in that the IL-17 antagonist is to be administered
to high risk RA
patient.
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Disclosed herein are uses of an 1L-17 antagonist for the manufacture of a
medicament for
treating RA, characterized in that the IL-17 antagonist is to be administered
to high risk RA
patient during an induction regimen followed by a maintenance regimen.
Disclosed herein are pharmaceutical composition for treating RA, comprising as
an active
ingredient an IL-17 antagonist, wherein the IL-17 antagonist is to be
administered to a high risk
RA patient.
Disclosed herein are pharmaceutical composition for treating RA, comprising as
an active
ingredient an 1L-17 antagonist, wherein the IL-17 antagonist is to be
administered to a high risk
RA patient during an induction regimen followed by a maintenance regimen.
Disclosed herein are therapeutic regimens for treating RA, comprising: a)
selecting a high
risk RA patient; b) administering about 10 mg/kg of an IL-17 antagonist to the
patient during
weeks 0, 2 and 4; and c) thereafter administering about 75 mg - about 150 mg
of the IL-17
antagonist to the patient monthly, beginning week 8.
Disclosed herein are methods of treating a RA patient or a high risk RA
patient,
comprising: a) administering an IL-17 binding molecule to a patient in need
thereof during an
induction regimen that provides a mean maximum plasma concentration (C..) of
the IL-17
binding molecule of about 360 tg/m1; and b) thereafter administering the IL-17
binding
molecule to the patient during a maintenance regimen that provides: i) an
average steady-state
trough level of the IL-17 binding molecule between about 8 mg/m1 - about 30
OM; and/or ii) a
mean AUC tau at steady state of about 331 mg*day/L - about 1323 mg*day/L.
Disclosed herein are IL-17 binding molecules for use in treating a RA patient
or a high
risk RA patient, characterized in that the IL-17 binding molecule: a) is to be
administered to the
patient during an induction regimen that provides a mean maximum plasma
concentration (C..)
of the IL-17 binding molecule of about 360 g/m1; and b) thereafter, is to be
administered to the
patient during a maintenance regimen that provides: i) an average steady-state
trough level of the
IL-17 binding molecule between about 8 mg/m1- about 30 g/m1; and/or ii) a mean
AUC tau at
steady state of about 331 mg*day/L - about 1323 mg*day/L.
Disclosed herein are methods of treating a high risk RA patient, comprising:
a)
administering an IL-17 binding molecule to a patient in need thereof during an
induction regimen
that provides a mean maximum plasma concentration (C..) of the IL-17 binding
molecule of
about 401 gg/m1; and b) thereafter administering the IL-17 binding molecule to
the patient
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during a maintenance regimen that provides: i) an average steady-state trough
level of the IL-17
binding molecule of about 9.4 pg/m1 - about 31 jig/m1; and/or ii) a mean AUC
tau at steady state
of about 314 mg*day/L - about 1256 mg*day/L.
Disclosed herein are IL-17 binding molecule for use in treating psoriasis,
characterized in
that the IL-17 binding molecule: a) is to be administered to the patient
during an induction
regimen that provides a mean maximum plasma concentration (Cmax) of the IL-17
binding
molecule of about 401 Wm% and b) thereafter, is to be administered to the
patient during a
maintenance regimen that provides: i) an average steady-state trough level of
the 1L-17 binding
molecule of about 9.4 g/m1- about 31 jig/m1; and/or ii) a mean AUC tau at
steady state of about
314 mg*day/L - about 1256 mg*day/L.
In some embodiments, the maintenance regimen provides an average steady-state
trough
level of the IL-17 binding molecule of about 9.4 g/m1¨ about 17.3 pg/ml. In
some
embodiments, the maintenance provides an average steady-state trough level of
the IL-17
binding molecule of about 9.4 jig/m1 or about 17.3 g/ml. In some embodiments,
the induction
regimen comprises intravenous administration of the IL-17 binding molecule
every other week.
In some embodiments, the maintenance regimen comprises monthly subcutaneous
administration
of the IL-17 binding molecule.
Disclosed herein are kits comprising: a) a pharmaceutical composition
comprising an IL-
17 antagonist for use in the treatment of rheumatoid arthritis (RA) in a
patient; and b)
instructions describing how to administer said pharmaceutical composition to
the patient,
wherein the patient is characterized as:1) being RF+, ACPA+, or both RF+ and
ACPA +; and ii)
having a high level of CRP, a high ESR, or both a high level of CRP and a high
ESR.
Disclosed herein are IL-17 antagonists in preparation of a medicament for the
treatment
of RA, provided that the patient is selected for the treatment on the basis
of: a) being RF+,
ACPA+, or both RF+ and ACPA +; and b) having a high level of CRP, a high ESR,
or both a
high level of CRP and a high ESR.
Disclosed herein are IL-17 antagonists for the manufacture of a medicament for
the
treatment of RA in a patient characterized as: a) being RF+, ACPA+, or both
RF+ and ACPA +;
and b) having a high level of CRP, a high ESR, or both a high level of CRP and
a high ESR,
wherein the medicament is formulated to comprise containers, each container
having a sufficient
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amount of the IL-17 antagonist to allow delivery of at least about 75 mg ¨
about 150 mg IL-17
antagonist per unit dose.
Disclosed herein are IL-17 antagonists for the manufacture of a medicament for
the
treatment of RA in a patient characterized as: a) being RF+, ACPA+, or both
RF+ and ACPA +;
and b) having a high level of CRP, a high ESR, or both a high level of CRP and
a high ESR,
wherein the medicament is formulated to comprise containers, each container
having a sufficient
amount of the IL-17 antagonist to allow delivery of at least about 10 mg/kg
per unit dose.
Disclosed herein are IL-17 antagonists for the manufacture of a medicament for
the
treatment of RA in a patient characterized as; a) being RF+, ACPA+, or both
RF+ and ACPA +;
and b) having a high level of CRP, a high ESR, or both a high level of CRP and
a high ESR,
wherein the medicament is formulated at a dosage to allow intravenous delivery
of about 10
mg/kg per unit dose.
Disclosed herein are IL-17 antagonists for the manufacture of a medicament for
the
treatment of RA in a patient characterized as: a) being RF+, ACPA+, or both
RF+ and ACPA +;
and b) having a high level of CRP, a high ESR, or both a high level of CRP and
a high ESR,
wherein the medicament is formulated at a dosage to allow subcutaneous
delivery of about 75
mg ¨ about 150 mg IL-17 antagonist per unit dose.
Disclosed herein are in vitro test methods for selecting a patient for
treatment of RA,
comprising determining if: i. the patient is RF+, ACPA+, or both RF+ and
ACPA+; and ii. the
patient has a high level of CRP, a high ESR, or both a high level of CRP and a
high ESR. In
some embodiments of the disclosed in vitro test methods, the patient has an
improved therapeutic
response to the following regimen: a) administering the patient three doses of
about 10 mg/kg of
an IL-17 antagonist, the first dose being delivered during week zero, the
second dose being
delivered during week two, and the third dose being delivered during week
four; and a)
thereafter administering the patient about 75 mg - about 150 mg of the IL-17
antagonist twice a
month, monthly, every two months or every three months, beginning during week
eight.
Disclosed herein are methods for producing a transmittable form of information
on a
patient having RA, comprising: a) assaying a sample from the patient for: i)
rheumatoid factor
(RF), anti-citrullinated protein antibody (ACPA), or RF and ACPA; and ii) C-
reactive protein
(CRP), an erythrocyte sedimentation rate (ESR), or both CRP and an ESR; and b)
embodying the
result of step a) in a transmittable form of information.
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Herein are also provided methods of treating an inflammatory arthritis,
comprising
administering three induction doses (e.g., i.v., induction doses) of about 10
mg/kg or several
(e.g., 1, 2, 3,4, or 5) inductiton doses of about 150 mg (e.g., s.c. induction
doses) of an 1L-17
antagonist, e.g., IL-17 binding molecule (e.g., IL-17 antibody or antigen
binding fragment
thereof, e.g., secukinumab) or IL-17 receptor binding molecule (e.g., IL-17
antibody or antigen
binding fragment thereof) to a patient having an inflammatory arthritis
selected from the group
consisting of rheumatoid arthritis (RA), spondyloarthropathy, ankylosing
spondylitis
(spondylarthritis), and psoriatic arthritis. In some embodiments, the
induction doses are delived
every other week, and thereafter the patient is administered monthly
maintenance doses (e.g., s.c.
maintenance doses) of about 75 mg ¨ about 300 mg (e.g., about 75 mg ¨ about
150 mg, e.g.,
about 75 mg or about 150 mg) of the IL-17 antagonist (e.g., secukinumab),
e.g., beginning one
month from delivery of the final induction dose.
Herein are also provided methods of treating RA, comprising selecting a RA
patient (e.g.,
a hie.' risk RA patient) or a patient having elevated baseline CRP levels,
administering the
patient about 10 mg/kg (e.g., by an Lv route) of an IL-17 antagonist, e.g., IL-
17 binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof, e.g.,
secukinumab) or IL-17
receptor binding molecule (e.g., IL-I 7 antibody or antigen binding fragment
thereof) every other
week (e.g., during week 0,2 and 4), and thereafter administering the patient
about 75 mg about
300 mg (e.g., about 75 mg ¨ about 150 mg, e.g., about 75 mg or about 150 mg)
(e.g., by an s.c.
route) of the IL-17 antagonist on a monthly basis (e.g., beginning week 8).
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the high risk RA patient: a) is seropositive for rheumatoid
factor (RF+), anti-
citrullinated protein antibody (ACPA+), or both RF+ and ACPA+; and b) has a
high level of C-
reactive protein (CRP), a high erythrocyte sedimentation rate (ESR), or both a
high level of CRP
and a high ESR.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the 1L-17 antagonist is an 1L-17 binding molecule or an IL-17
receptor binding
molecule. In some embodiments, the IL-17 binding molecule or an 1L-17 receptor
binding
molecule is an IL-17 binding molecule (e.g., IL-I 7 antibody) selected from
the group consisting
of: a) secukinumab; b) an 1L-17 antibody that binds to an vitope of IL-17
comprising Leu74,
Tyr85, His86, Met87, Asn88, Va1124, Thr125, Pro126, 11e127, Val 28, His129; c)
an IL-17
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antibody that binds to an epitope of IL-17 comprising Tyr43, Tyr44, Arg46,
A1a79, Asp80; d) an
1L-17 antibody that binds to an epitope of an IL-17 homodimer having two
mature IL-17 protein
chains, said epitope comprising Leu74, Tyr85, His86, Met87, Asn88, Va1124,
Thr125, Prol 26,
Ile127, Va1128, His129 on one chain and Tyr43, Tyr44, Arg46, Ala79, Asp80 on
the other chain;
e) an IL-17 antibody that binds to an epitope of an IL-17 homodimer having two
mature IL-17
protein chains, said epitope comprising Leu74, Tyr85, 1-Iis86, Met87, Asn88,
Va1124, Thr125,
Pro126, 11e127, Va1128, His129 on one chain and Tyr43, Tyr44, Arg46, Ala79,
Asp80 on the
other chain, wherein the IL-17 binding molecule has a KD of about 100-200 pM,
and wherein the
IL-17 binding molecule has an in vivo half-life of about 4 weeks; and 0 an IL-
17 antibody that
comprises an antibody selected from the group consisting of: i) an
immunoglobulin heavy chain
variable domain (VH) comprising the amino acid sequence set forth as SEQ ID
NO:8; ii) an
immunoglobulin light chain variable domain (VL) comprising the amino acid
sequence set forth
as SEQ ID NO:10; iii) an immunoglobulin VH domain comprising the amino acid
sequence set
forth as SEQ ID NO:8 and an immunoglobulin VL domain comprising the amino acid
sequence
set forth as SEQ ID NO:10; iv) an immunoglobulin VH domain comprising the
hypervariable
regions set forth as SEQ ID NO:!, SEQ ID NO:2, and SEQ ID NO:3; v) an
immunoglobulin VL
domain comprising the hypervariable regions set forth as SEQ ID NO:4, SEQ ID
NO:5 and SEQ
ID NO:6; vi) an immunoglobulin VH domain comprising the hypervariable regions
set forth as
SEQ ID NO:11, SEQ ID NO:12 and SEQ ID NO:13; vii) an immunoglobulin VH domain
comprising the hypervariable regions set forth as SEQ ID NO:!, SEQ ID NO:2,
and SEQ ID
NO:3 and an immunoglobulin VL domain comprising the hypervariable regions set
forth as SEQ
ID NO:4, SEQ ID NO:5 and SEQ ID NO:6; and viii) an immunoglobulin VH domain
comprising
the hypervariable regions set forth as SEQ ID NO: II, SEQ ID NO:12 and SEQ ID
NO:13 and an
immunoglobulin VI, domain comprising the hypervariable regions set forth as
SEQ ID NO:4,
SEQ ID NO:5 and SEQ ID NO:6.
In preferred embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions, and regimens, the IL-17 binding molecule is a human antibody. In
even more
preferred embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions, and
regimens, the IL-17 binding molecule is secukinumab.
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In one embodiment, the present invention relates to secukinumab for use in
treating
psoriatic arthritis (PsA) in a patient, characterized in that secukinumab is:
a) for
administration subcutaneously to a patient in need thereof as five doses of
150 mg, one of
each of the five doses being delivered weekly, beginning on week zero; and b)
thereafter,
for administration subcutaneously to the patient at a dose of 150 mg every
month.
In another embodiment, the present invention relates to secukinumab for use in
treating psoriatic arthritis (PsA) in a patient, characterized in that
secukinumab is: a) for
administration subcutaneously to a patient in need thereof as five doses of
300 mg, one of
each of the five doses being delivered weekly, beginning on week zero; and b)
thereafter,
for administration subcutaneously to the patient at a dose of 300 mg every
month.
In another embodiment, the present invention relates to secukinumab for use in
treating active psoriatic arthritis (PsA) in a patient who has responded
inadequately to
DMARD therapy, wherein 150 mg of secukinumab is for administration to the
patient as a
subcutaneous injection with dosing at weeks 0, 1, 2 and 3, followed by monthly
dosing of
150 mg of secukinumab starting at week 4.
In another embodiment, the present invention relates to secukinumab for use in
treating active psoriatic arthritis (PsA) in a patient who is has responded
inadequately to an
anti-TNFa therapy, wherein 300 mg of secukinumab is for administration to the
patient as
a subcutaneous injection with dosing at weeks 0, 1, 2 and 3, followed by
monthly dosing
of 300 mg of secukinumab starting at week 4.
In another embodiment, the present invention relates to secukinumab for use in
treating active psoriatic arthritis (PsA) in a patient who has responded
inadequately to
DMARD therapy and who has coexistent moderate to severe plaque psoriasis,
wherein 300
mg of secukinumab is for administration to the patient as a subcutaneous
injection with
dosing at weeks 0, 1, 2 and 3, followed by monthly dosing of 300 mg of
secukinumab
starting at week 4.
In another embodiment, the present invention relates to use of a subcutaneous
pharmaceutical product comprising 150 mg or 300 mg secukinumab for the
treatment of
psoriatic arthritis (PsA) in a subject, wherein the pharmaceutical product is
for
administration as: a) five doses of secukinumab, each dose being of 300 mg of
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secukinumab, and one of each of the five doses being delivered weekly,
beginning on
week zero; and b) thereafter, one dose of secukinumab monthly, each dose being
of 300
mg of secukinumab.
In another embodiment, the present invention relates to use of a subcutaneous
dosage form comprising 150 mg of secukinumab for the treatment of psoriatic
arthritis
(PsA) in a subject, wherein the dosage form is for administration as: a) five
doses of
secukinumab, each dose being of 300 mg of secukinumab, as two separate
administrations
of the subcutaneous dosage foirn, and one of each of the five doses being
delivered
weekly, beginning on week zero; and b) thereafter, as one dose of secukinumab
monthly,
each dose being of 300 mg of secukinumab, as two separate administrations of
the
subcutaneous dosage form.
In another embodiment, the present invention relates to use of a subcutaneous
dosage form comprising 150 mg of secukinumab for the treatment of psoriatic
arthritis
(PsA) in a subject, wherein the dosage form is for administration as: a) five
doses of
secukinumab, each dose being of 150 mg of secukinumab and one of each of the
five
doses being delivered weekly, beginning on week zero; and b) thereafter, as
one dose of
secukinumab monthly, each dose being of 150 mg of secukinumab.
In another embodiment, the present invention relates to use of a subcutaneous
dosage form comprising 150 mg of secukinumab for the treatment of active
psoriatic
arthritis (PsA) in a patient who has responded inadequately to DMARD therapy,
wherein
the subcutaneous dosage form is for administration at each dosing as a
subcutaneous
injection of 150 mg secukinumab, with dosing at weeks 0, 1, 2 and 3, followed
by monthly
dosing of 150 mg of secukinumab starting at week 4.
In another embodiment, the present invention relates to use of a subcutaneous
dosage form comprising 300 mg of secukinumab for the treatment of active
psoriatic
arthritis (PsA) in a patient who has responded inadequately to an anti-TNFa
therapy,
wherein the subcutaneous dosage form is for administration at each dosing as a
subcutaneous injection of 300 mg secukinumab, with dosing at weeks 0, 1, 2 and
3,
followed by monthly dosing of 300 mg of secukinumab starting at week 4.
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In another embodiment, the present invention relates to use of a subcutaneous
dosage form comprising 300 mg of secukinumab for the treatment of active
psoriatic
arthritis (PsA) in a patient who has responded inadequately to DMARD therapy
and who
has coexistent moderate to severe plaque psoriasis, wherein the subcutaneous
dosage form
is for administration at each dosing as a subcutaneous injection of 300 mg
secukinumab,
with dosing at weeks 0, 1, 2 and 3, followed by monthly dosing of 300 mg of
secukinumab
starting at week 4.
In another embodiment, the present invention relates to a pre-filled syringe
comprising a syringe containing 150 mg secukinumab and at least one
pharmaceutically
acceptable carrier, for treating psoriatic arthritis (PsA) in a subject, said
pre-filled syringe
being for use in a regimen comprising: a) five doses of secukinumab, each dose
being of
150 mg of secukinumab as a single injection of the pre-filled syringe, one of
and each of
the five doses being delivered weekly, beginning on week zero; and b)
thereafter, as one
dose of secukinumab monthly, each dose being of 150 mg of secukinumab, as a
single
injection of the pre-filled syringe.
In another embodiment, the present invention relates to a pre-filled syringe
comprising a syringe containing 150 mg secukinumab and at least one
pharmaceutically
acceptable carrier, for treating psoriatic arthritis (PsA) in a subject, said
pre-filled syringe
being for use as: a) five doses of secukinumab, each dose being of 300 mg of
secukinumab, as two separate injections of the pre-filled syringe, and one of
each of the
five doses being delivered weekly, beginning on week zero; and b) thereafter,
as one dose
of secukinumab monthly, each dose being of 300 mg of secukinumab as two
separate
injections of the pre-filled syringe.
In another embodiment, the present invention relates to a pre-filled syringe
comprising a syringe containing 150 mg of secukinumab and at least one
pharmaceutically
acceptable carrier, for the treatment of active psoriatic arthritis (PsA) in a
patient who has
responded inadequately to DMARD therapy, said pre-filled syringe being for
administration of 150 mg secukinumab with dosing at weeks 0, 1, 2 and 3,
followed by
monthly dosing of 150 mg of secukinumab starting at week 4.
In another embodiment, the present invention relates to a pre-filled syringe
comprising a syringe containing 300 mg of secukinumab; and at least one
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pharmaceutically acceptable carrier, for the treatment of active psoriatic
arthritis (PsA) in a
patient who has responded inadequately to anti-TNFa therapy, said pre-filled
syringe
being for administration of 300 mg secukinumab with dosing at weeks 0, 1, 2
and 3,
followed by monthly dosing of 300 mg of secukinumab starting at week 4.
In another embodiment, the present invention relates to a pre-filled syringe
comprising a syringe containing 300 mg of secukinumab; and at least one
pharmaceutically acceptable carrier, for the treatment of active psoriatic
arthritis (PsA) in a
patient who has responded inadequately to DMARD therapy and who has coexistent
moderate to severe plaque psoriasis, said pre-filled syringe being for
administration at each
dosing of 300 mg of secukinumab, with dosing at weeks 0, 1, 2 and 3, followed
by
monthly dosing of 300 mg of secukinumab starting at week 4.
In another embodiment, the present invention relates to a pre-filled syringe
comprising a syringe containing 300 mg secukinumab and at least one
pharmaceutically
acceptable carrier, for treating psoriatic arthritis (PsA) in a subject, said
pre-filled syringe
being for use in a regimen comprising: a) five doses of secukinumab, each dose
being of
300 mg of secukinumab as a single injection of the pre-filled syringe, one of
and each of
the five doses being delivered weekly, beginning on week zero; and b)
thereafter, as one
dose of secukinumab monthly, each dose being of 300 mg of secukinumab, as a
single
injection of the pre-filled syringe.
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BRIEF DESCRIPTION OF THE DRAWINGS
Figure 1 shows the study design of the CA1N457F2201 study.
Figure 2: A shows ACR20 response last observation carried forward (LOCF) by
treatment up to
week 16 in study CA1N457F2201 in full analysis set (FAS); B shows ACR20
response (LOCF)
by treatment up to week 16 in high risk RA patients; C shows the ACR20
response over time
through week 52 by responders (R) and non-responders (NR) in the FAS.
Figure 3: A shows ACR50 response (LOCF) by treatment up to week 16 in study
CA1N457F2201 in full analysis set (FAS); B shows the ACR50 response over time
through week
52 by responders (R) and non-responders (NR) in the FAS.
Figure 4: A shows ACR70 response (LOCF) by treatment up to week 16 in study
CA1N457F2201 in full analysis set (FAS); B shows the ACR70 response over time
through week
52 by responders (R) and non-responders (NR) in the FAS.
Figure 5: A shows DAS28-CRP change from baseline (LOCF) by treatment up to
week 16 in
study CA1N457F2201 FAS; B shows the DAS28-CRP response over time through week
52 by
responders (R) and non-responders (NR) in the FAS.
Figure 6: A shows HAQC scores change from baseline (LOCF) by treatment up to
week 16 in
study CA1N457F2201 FAS; B shows the HAQC response over time through week 52 by
responders (R) and non-responders (NR) in the FAS.
Figure 7 shows the ACR20/50/'70 response at week 52 by responders (R) and non-
responders
(NR) in the FAS.
Figure 8: A shows the ACR20/50/70 % response at week 16 in the high risk RA
patients and
non-high risk RA patients. B shows the DAS28-CRP response at week 16 in the
high risk RA
patients and non high risk RA patients.
Figure 9 shows ACR20 responder rates by dose group and CRP baseline levels in
CA1N457F2201 study. Columns represent, from the left to the right, all
patients, patients with a
CRP baseline greater than 10 mg/L, greater than 20 mg/L, and greater than 30
mg,/L, respectively.
Figure 10 shows simulated secukinumab pharmacokinetics (PK) in rheumatoid
arthritis patients.
The full line shows PK without an induction strategy (one dose of 300 mg s.c.
at Week 0), dotted
line shows PK with a subcutaneous induction strategy (300 mg s.c. at Weeks 0,
I, 2, 3 and 4) and
dashed line shows PK with an intravenous induction strategy (10 mg/kg i.v. at
Weeks 0, 2 and 4).
Each of the three options is followed by 300 mg s.c. every 4 weeks for
maintenance.
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DETAILED DESCRIPTION OF TifiliiiSCLOSURE
The 1987 American College of Rhcumatology (Acior Classification criteria for
RA
discriminates patients with established RA from individuals with a combination
of other definite
rheumatological diagnoses. These criteria were not helpfill :in identifying
patients with early RA
disease who might benefit from early intervention. In 2010 ACR provided a new
classification
system that focuses on RA features at earlier stages of disease that are
associated with persistent
and/or erosive disease (hereinafter "2010 ACR/EULAR" criteria). Aletaha et al.
(2010) Ann.
Rheum. Dis. 69:1580-1588. The 2010 ACR/EULAR classification system focuses on
six
criteria; the first two criteria define who should be tested for RA, while the
remaining four
criteria are scored (Table 1). A score of six or greater is indicative of
definite RA.
Table 1: The 2010 American College of Rheumatology/European League Against
Rheumatism
Score
classification Criteria for Rheumatoid Arthritis (RA)
Target population (Who should be tested?): Patients who
1) have at least 1 joint with definite clinical synovitis (swelling)*
2) with the synovitis not better explained by another disease
Classification criteria for RA (score-based algorithm: add score of categories
A D;
a score of >6/10 is needed for classification of a patient as having definite
RA):
A. Joint involvement
i I large joint'll 0
I 2-10 large joints
1-3 small joints (with or without involvement of large joints)# 2
14-10 small joints (with or without involvement of large joints) 3
>10 joints (at least I small joint)** 5
1 B. Serology (at least 1 test result is needed for classification)tt
Negative RF and negative ACPA
ILow-positive RF or low-positive ACPA 2
I High-positive RF or high-positive ACPA 3
C. Acute-phase reactants (at least I test result is needed for
classification)::
Normal CRP and normal ESR 0
Abnormal CRP or abnormal ESR
D. Duration of symptoms**
<6 weeks
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>6 weeks
* The criteria are aimed at classification of newly presenting patients. In
addition, patients with erosive disease
typical of rheumatoid arthritis (RA) with a history compatible with prior
fulfillment of the 2010 criteria should be
classified as having RA. Patients with longstanding disease, including those
whose disease is inactive (with or
without treatment) who, based on retrospectively available data, have
previously fulfilled the 2010 criteria should be
classified as having RA.
t Differential diagnoses vary among patients with different presentations, but
may include conditions such as
systemic lupus erythematosus, psoriatic arthritis, and gout. If it is unclear
about the relevant differential diagnoses to
consider, an expert rheumatologist should be consulted.
Although patients with a score of <6/10 are not classifiable as having RA,
their status can be reassessed and the
criteria might be fulfilled cumulatively over time.
Joint involvement refers to any swollen or tender joint on examination, which
may be confirmed by imaging
evidence of synovitis. Distal interphalangeal joints, first carpometacarpal
joints, and first metatarsophalangeal joints
are excluded from assessment. Categories ofjoint distribution are classified
according to the location and number of
involved joints, with placement into the highest category possible based on
the pattern of joint involvement.
"Large joints" refers to shoulders, elbows, hips, knees, and ankles.
# "Small joints" refers to the metacarpophalangeal joints, proximal
interphalangeal joints, second through fifth
metatarsophalangeal joints, thumb interphalangeal joints, and wrists.
** In this category, at least 1 of the involved joints must be a small joint;
the other joints can include any
combination of large and additional small joints, as well as other joints not
specifically listed elsewhere (e.g.,
temporomandibular, acromioclavicular, stemoclavicular, etc.).
tt Negative refers to 1U values that are less than or equal to the upper limit
of normal (ULN) Cot the laboratory and
assay; low-positive refers to IU values that are higher than the ULN but <=3
times the ULN for the laboratory and
assay; high-positive refers to IU values that are >3 times the ULN for the
laboratory and assay. Where rheumatoid
factor (RF) information is only available as positive or negative, a positive
result should be scored as low-positive
for RF. ACPA = anti-citrullinated protein antibody.
$: Normal/abnormal is determined by local laboratory standards. CRP = C-
reactive protein; ESR =erythrocyte
sedimentation rate.
Duration of symptoms refers to patient self-report of the duration of signs or
symptoms of synovitis (e.g., pain,
swelling, tenderness) ofjoints that are clinically involved at the time of
assessment, regardless of treatment status.
In searching for indicators predictive of an RA patient's response to
treatment with an IL-
17 binding molecule, e.g., an IL-17 antibody, such as secukinumab, we have
analyzed two of the
four 2010 ACRIELJLAR scoreable criteria to determine whether these criteria
influence response
to treatment with an IL-17 binding molecule, such as secukinumab. First, we
analyzed patient
serology to determine whether the patient is RF + and/or ACPA +. Second, we
analyzed the
presence of acute-phase reactants to determine whether the patient has a high
level of C-reactive
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protein (CRP) and/or a high erythrocyte sedimentation rate (ESR). In the
process, we discovered
that patients: 1) that are RF + or ACPA + (or both); and 2) who have a high
level of CRP or ESR
(or both) are more likely to have a good response to treatment with an IL-17
binding molecule,
e.g., an IL-17 antibody, such as secukinumab. Such patients (termed herein
"high risk RA
patients") are those with the most salient features of RA. (See, e.g.,
Yildirim et al. (2004) Annals
Clin. Lab. Sci 34:423). Accordingly, disclosed herein are methods of treating
rheumatoid
arthritis (RA), comprising administering a therapeutically effective amount of
an IL-17 binding
molecule to a high risk RA patient.
We have additionally determined that elevated baseline CRP levels (e.g., >
about 10 mg/L)
are also associated with responsiveness to secukinumab. Accordingly, disclosed
herein are
methods of treating rheumatoid arthritis (RA), comprising administering a
therapeutically
effective amount of an 1L-17 binding molecule to a RA patient displaying
elevated baseline CRP
levels (e.g., greater than about 10 mg,/L, greater than about 20 mg/L, greater
than about 30
m8/1-).
We have further discovered that the treatment regimens useful in treating high
risk RA
patients are additionally useful in treating RA in non-high risk patients and
patients having other
inflammatory arthritis, e.g., ankylosing spondylitis (AS) or psoriatic
arthritis (PsA). Accordingly,
disclosed herein are dosing and treatment regimens for addressing inflammatory
arthridities (e.g.,
RA, AS, PsA), comprising administering a therapeutically effective amount of
an IL-17 binding
molecule to a patient having an inflammatory arthridities.
The term "comprising" encompasses "including" as well as "consisting," e.g. a
composition "comprising" X may consist exclusively of X or may include
something additional,
e.g., X + Y.
The term "about" in relation to a numerical value x means +/-10% unless the
cotext
dictates otherwise. The term "about," when used in reference to a
pharmacokinetic (PK)
parameter (e.g., AUC, Cm, tmax, trough levels, etc.), indicates a treatment
(e.g., dosage and/or
dosing regimen) that a skilled artisan would consider bioequivalent to a
reference treatment. For
bioequivalence, the standard method to show bioequivalence is to prove
statistically that the ratio
of a given PK parameter (e.g., AUC, between two treatments (i.e., a
reference treatment
and a test treatment) is between 0.8 - 1.25, which is shown by means of a 90%
confidence
interval (CI) around the ratio (the lower limit of this CI being above 0.8,
and the upper limit of
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this CI being below 1.25). Thus, e.g., if during a trial comparing the PK
profiles of a reference
treatment and a test treatment, a reference Cmax of 10 g/m1 is obtained, then
the test treatment
will be considered "about 10 tg/m1" if a skilled artisan would consider the
test treatment to be
bioequivalent. As used herein, pharmacokinetic terms, e.g., tfllaX, AUC,
AUCo-uto (AUC to
the end of a given dosing period, hereinafter "AUC tau"), Cm, have their art-
accepted meanings.
The term "administering" in relation to a compound, e.g., an 1L-17 binding
molecule or an
anti-rheumatic agent, is used to refer to delivery of that compound by any
route.
The phrase "active rheumatoid arthritis" or "active RA" is used to mean RA
with visible
signs and symptoms (e.g., swelling, difficulty in flexion, etc.).
The term "assaying" is used to refer to the act of detecting, identifying,
screening, or
determining, which act may be performed by any conventional means. For
example, a sample
may be assayed for the presence of a particular marker by using an ELISA
assay, a Northern blot,
imaging, etc. to detect whether that marker is present in the sample.
The word "substantially" does not exclude "completely," e.g., a composition
which is
"substantially free" from Y may be completely free from Y. Where necessary,
the word
"substantially" may be omitted from the definition of the disclosure.
As used herein, "mg/kg" refers to mg of drug per kg body weight of the patient
being
administered the drug.
"IL-17 antagonist" as used herein refers to a molecule capable of antagonizing
(e.g.,
reducing, inhibiting, decreasing, blocking, delaying) EL-17 function,
expression and/or signalling
(e.g., by blocking the binding of 1L-17 to the IL-17 receptor). Non-limiting
examples of 1L-17
antagonists include 1L-17 binding molecules and 1L-17 receptor binding
molecules. In some
embodiments of the disclosed methods, regimens, kits, processes, uses and
compositions, an IL-
17 antagonist is employed.
By "IL- 17 binding molecule" is meant any molecule capable of binding to the
human IL-
17 antigen either alone or as it is associated with other molecules. The
binding reaction may be
shown by standard methods (qualitative assays) including, for example, a
binding assay,
competition assay or a bioassay for determining the inhibition of IL-17
binding to its receptor or
any kind of binding assays, with reference to a negative control test in which
an antibody of
unrelated specificity but of the same isotype, e.g. an anti-CD25 antibody, is
used. Non-limiting
examples of IL-17 binding molecules include small molecules, IL-17 receptor
decoys, and
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antibodies as produced by B-cells or hybridomas and chimeric, CDR-grafted or
human
antibodies or any fragment thereof, e.g., F(ab')2 and Fab fragments, as well
as single chain or
single domain antibodies. Preferably the IL-17 binding molecule antagonizes
(e.g., reduces,
inhibits, decreases, delays) IL-17 function, expression and/or signalling. In
some embodiments
of the disclosed methods, regimens, kits, processes, uses and compositions, an
1L-17 binding
molecule is employed.
By "IL-17 receptor binding molecule" is meant any molecule capable of binding
to the
human IL-17 receptor either alone or associated with other molecules. The
binding reaction may
be shown by standard methods (qualitative assays) including, for example, a
binding assay,
competition assay or a bioassay for determining the inhibition of 1L-17
receptor binding to IL-17
or any kind of binding assays, with reference to a negative control test in
which an antibody of
unrelated specificity but of the same isotype, e.g. an anti-CD25 antibody, is
used. Non-limiting
examples of IL-I 7 receptor binding molecules include small molecules, IL-17
decoys, and
antibodies to the IL-17 receptor as produced by B-cells or hybridomas and
chimeric, CDR-
grafted or human antibodies or any fragment thereof, e.g., F(ab')2 and Fab
fragments, as well as
single chain or single domain antibodies. Preferably the IL-17 receptor
binding molecule
antagonizes (e.g., reduces, inhibits, decreases, delays) IL-17 function,
expression and/or
signalling. In some embodiments of the disclosed methods, regimens, kits,
processes, uses and
compositions, an IL-17 receptor binding molecule is employed.
The term "antibody" as referred to herein includes whole antibodies and any
antigen-
binding portion or single chains thereof. A naturally occurring antibody is a
glycoprotein
comprising at least two heavy (H) chains and two light (L) chains inter-
connected by disulfide
bonds. Each heavy chain is comprised of a heavy chain variable region
(abbreviated herein as
VI!) and a heavy chain constant region. The heavy chain constant region is
comprised of three
domains, CHI, CH2 and CH3. Each light chain is comprised of a light chain
variable region
(abbreviated herein as VL) and a light chain constant region. The light chain
constant region is
comprised of one domain, CL. The VH and VL regions can be further subdivided
into regions of
hypervariability, termed cornplementarity determining regions (CDR),
interspersed with regions
that are more conserved, termed framework regions (FR). Each VH and VL is
composed of three
CDRs and four FRs arranged from amino-terminus to carboxy-terminus in the
following order
FR1, CDR1, FR2, CDR2, FR3, CDR3, FR4. The variable regions of the heavy and
light chains
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contain a binding domain that interacts with an antigen. The constant regions
of the antibodies
may mediate the binding of the immunoglobulin to host tissues or factors,
including various cells
of the immune system (e.g., effector cells) and the first component (C 1 q) of
the classical
complement system. In some embodiments of the disclosed methods, regimens,
kits, processes,
uses and compositions, an antibody to IL-17 or the IL-17 receptor is employed.
The term "antigen-binding portion" of an antibody as used herein, refers to
fragments of an
antibody that retain the ability to specifically bind to an antigen (e.g., IL-
17). It has been shown
that the antigen-binding function of an antibody can be performed by fragments
of a full-length
antibody. Examples of binding fragments encompassed within the term "antigen-
binding
portion" of an antibody include a Fab fragment, a monovalent fragment
consisting of the VL, VH,
CL and CHI domains; a F(ab)2 fragment, a bivalent fragment comprising two Fab
fragments
linked by a disulfide bridge at the hinge region; a Fd fragment consisting of
the VH and CHI
domains; a Fv fragment consisting of the VL and VH domains of a single arm of
an antibody; a
dAb fragment (Ward et al., 1989 Nature 341:544-546), which consists of a VH
domain; and an
isolated complementarity determining region (CDR). Exemplary antigen binding
sites include
the CDRs of secukinumab as set forth in SEQ ID NOs:1-6 and 11-13 (Table 4),
preferably the
heavy chain CDR3. Furthermore, although the two domains of the Fv fragment, VL
and VH, are
coded for by separate genes, they can be joined, using recombinant methods, by
a synthetic
linker that enables them to be made as a single protein chain in which the VL
and VH regions pair
to form monovalent molecules (known as single chain Fv (scFv); see, e.g., Bird
et al., 1988
Science 242:423-426; and Huston et al., 1988 Proc. Natl. Acad. Sci. 85:5879-
5883). Such single
chain antibodies are also intended to be encompassed within the term
"antibody". Single chain
antibodies and antigen-binding portions are obtained using conventional
techniques known to
those of skill in the art. In some embodiments of the disclosed methods,
regimens, kits,
processes, uses and compositions, a single chain antibody or an antigen-
binding portion of an
antibody against IL-17 (e.g., secukinumab) or the IL-17 receptor is employed.
The term "pharmaceutically acceptable" means a nontoxic material that does not
interfere
with the effectiveness of the biological activity of the active ingredient(s).
An "isolated antibody", as used herein, refers to an antibody that is
substantially free of
other antibodies having different antigenic specificities (e.g., an isolated
antibody that
specifically binds IL-17 is substantially free of antibodies that specifically
bind antigens other
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than IL-17). An isolated antibody may be substantially free of other cellular
material and/or
chemicals. An isolated antibody that "specifically binds" IL-17 may, however,
be cross-reactive
with other antigens, such as IL-17 molecules from other species. In some
embodiments of the
disclosed methods, regimens, kits, processes, uses and compositions, the 1L-17
antagonist is an
isolated antibody.
The terms "monoclonal antibody" or "monoclonal antibody composition" as used
herein
refer to a preparation of antibody molecules of single molecular composition.
A monoclonal
antibody composition displays a single binding specificity and affinity for a
particular epitope. In
some embodiments of the disclosed methods, regimens, kits, processes, uses and
compositions,
the IL-17 antagonist is a monoclonal antibody.
The term "human antibody", as used herein, is intended to include antibodies
having
variable regions in which both the framework and CDR regions are derived from
sequences of
human origin. Furthermore, if the antibody contains a constant region, the
constant region also is
derived from such human sequences, e.g., human germline sequences, or mutated
versions of
human germline sequences or antibody containing consensus framework sequences
derived from
human framework sequences analysis as described in Knappik, et al. (2000. J
Mol Blot 296, 57-
86). A "human antibody" need not be produced by a human, human tissue or human
cell. The
human antibodies of the disclosure may include amino acid residues not encoded
by human
sequences (e.g., mutations introduced by random or site-specific mutagenesis
in vitro or by
somatic mutation in vivo). However, the term "human antibody", as used herein,
is not intended
to include antibodies in which CDR sequences derived from the germline of
another mammalian
species, such as a mouse, have been grafted onto human framework sequences. In
some
embodiments of the disclosed methods, regimens, kits, processes, uses and
compositions, the IL-
17 antagonist is a human antibody.
The term "IL-17" refers to IL-17A, formerly known as CTLA8, and includes wild-
type IL-
17A from various species (e.g., human, mouse, and monkey), polymorphic
variants of IL-17A,
and functional equivalents of IL-17A. Functional equivalents of IL-17A
according to the present
disclosure preferably have at least about 65%, 75%, 85%, 95%, 96%, 97%, 98%,
or even 99%
overall sequence identity with a wild-type IL-17A (e.g., human IL-17A), and
substantially retain
the ability to induce 1L-6 production by human dermal fibroblasts.
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The term "Kr," is intended to refer to the dissociation constant, which is
obtained from the
ratio of Kd to K. (i.e. Kd/K.) and is expressed as a molar concentration (M).
KD values for
antibodies can be determined using methods well established in the art. A
method for
determining the KD of an antibody is by using surface plasmon resonance, or
using a biosensor
system such as a Biacoree4 system. In some embodiments of the invention the IL-
17 antagonist,
e.g., IL-17 binding molecule (e.g., IL-17 antibody or antigen binding fragment
thereof, e.g.,
secukinumab) or IL-17 receptor binding molecule (e.g., IL-17 antibody or
antigen binding
fragment thereof) binds human IL-17 with a Kr, of about 100-250 pM.
As used herein, the term "affinity" refers to the strength of interaction
between antibody
and antigen at single antigenic sites. Within each antigenic site, the
variable region of the
antibody "arm" interacts through weak non-covalent forces with antigen at
numerous sites; the
more interactions, the stronger the affinity. Standard assays to evaluate the
binding affinity of
the antibodies toward IL-17 of various species are known in the art, including
for example,
ELISAs, western blots and RIAs. The binding kinetics (e.g., binding affinity)
of the antibodies
also can be assessed by standard assays known in the art, such as by Biacore
analysis. Assays to
evaluate the effects of the antibodies on functional properties of1L-17 (e.g.,
receptor binding,
preventing or ameliorating osteolysis) are described in further detail in the
Examples.
As used herein, the term "subject" and "patient" includes any human or
nonhuman animal.
The term "nonhuman animal" includes all vertebrates, e.g., mammals and non-
mammals, such as
nonhuman primates, sheep, dogs, cats, horses, cows chickens, amphibians,
reptiles, etc.
An antibody that "inhibits" one or more of IL-17 functional properties (e.g.,
biochemical,
immunochemical, cellular, physiological or other biological activities, or the
like) as determined
according to methodologies known to the art and described herein, will be
understood to relate to
a statistically significant decrease in the particular activity relative to
that seen in the absence of
the antibody (or when a control antibody of irrelevant specificity is
present). An antibody that
inhibits IL-17 activity affects a statistically significant decrease, e.g., by
at least 10% of the
measured parameter, by at least 50%, 80% or 90%, and in certain embodiments an
antibody of
the disclosure may inhibit greater than 95%, 98% or 99% of IL-17 functional
activity.
The term "derivative", unless otherwise indicated, is used to define amino
acid sequence
variants, and covalent modifications of an IL-17 antagonist, e.g., IL-17
binding molecule (e.g.,
IL-17 antibody or antigen binding fragment thereof, e.g., secukinumab) or IL-
17 receptor
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binding molecule (e.g., IL-I 7 antibody or antigen binding fragment thereof)
according to the
present disclosure, e.g., of a specified sequence. A "functional derivative"
includes a molecule
having a qualitative biological activity in common with the disclosed IL-17
antagonista, e.g., IL-
17 binding molecules (e.g., IL-17 antibody or antigen binding fragment
thereof, e.g.,
secukinumab) or IL-17 receptor binding molecules (e.g., IL-17 antibody or
antigen binding
fragment thereof). A functional derivative includes fragments and peptide
analogs of an IL-17
antagonist as disclosed herein. Fragments comprise regions within the sequence
of a polypeptide
according to the present disclosure, e.g., of a specified sequence. Functional
derivatives of the
IL-17 antagonists disclosed herein preferably comprise VH and/or VL domains
that have at least
about 65%, 75%, 85%, 95%, 96%, 97%, 98%, or even 99% overall sequence identity
with the
VH and/or VL sequences of the IL-17 binding molecules disclosed herein (e.g.,
the VH and/or VL
sequences of Table 4), or comprise CDRs that have at least about 65%, 75%,
85%, 95%, 96%,
97%, 98%, or even 99% overall sequence identity with the CDRs of the IL-17
antagonists (e.g.,
secukinumab) disclosed herein (e.g., have 1, 2, or 3 amino acid differences
from the CDRs set
forth in Table 4), and substantially retain the ability to bind the human IL-
17 or, e.g., inhibit IL-6
production of 1L-17 induced human dermal fibroblasts.
"Inhibit IL-16" as used herein refers to the ability of an IL-17 antagonist
(e.g.,
secukinumab) to decrease IL-6 production from primary human dermal
fibroblasts. The
production of IL-6 in primary human (dermal) fibroblasts is dependent on 1L-17
(Hwang SY et
al., (2004) Arthritis Res Ther; 6:R120-128. In short, human dermal fibroblasts
are stimulated
with recombinant IL-17 in the presence of various concentrations of an IL-17
binding molecule
or human IL-17 receptor with Fc part. The chimeric anti-CD25 antibody Simulect
(basiliximab) may be convienently used as a negative control. Supernatant is
taken after 16 h
stimulation and assayed for IL-6 by ELBA. An IL-17 antagonist, e.g., IL-17
binding molecule
(e.g., IL-17 antibody or antigen binding fragment thereof, e.g., secukinumab)
or IL-17 receptor
binding molecule (e.g., 1L-17 antibody or antigen binding fragment thereof) as
disclosed herein
typically has an 1050 for inhibition of IL-6 production (in the presence 1
nItil human IL-17) of
about 50 nM or less (e.g., from about 0.01 to about 50 nM) when tested as
above, i.e., said
inhibitory activity being measured on IL-6 production induced by hu-IL-17 in
human dermal
fibroblasts. In some embodiments of the disclosed methods, regimens, kits,
processes, uses and
compositions, IL-17 antagonists, e.g., IL-17 binding molecules (e.g., 1L-17
antibody or antigen
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binding fragment thereof, e.g., secukinumab) or IL-17 receptor binding
molecules (e.g., IL-17
antibody or antigen binding fragment thereof) and functional derivatives
thereof have an IC50 for
inhibition of IL-6 production as defined above of about 20 nM or less, more
preferably of about
nM or less, more preferably of about 5 nM or less, more preferably of about 2
nM or less,
more preferably of about 1 nM or less.
The term "covalent modification" includes modifications of a polypeptide
according to
the present disclosure, e.g., of a specified sequence; or a fragment thereof
with an organic
proteinaceous or non-proteinaceous derivatizing agent, fusions to heterologous
polypeptide
sequences, and post-translational modifications. Covalent modified
polypeptidcs, e.g., of a
specified sequence, still have the ability to bind the human IL-17 or, e.g.,
inhibit 1L-6 production
of 1L-17 induced human dermal fibroblasts by crosslinking: Covalent
modifications are
traditionally introduced by reacting targeted amino acid residues with an
organic dcrivatizing
agent that is capable of reacting with selected sides or terminal residues, or
by harnessing
mechanisms of post-translational modifications that function in selected
recombinant host cells.
Certain post-translational modifications are the result of the action of
recombinant host cells on
the expressed polypeptide. Glutaminyl and asparaginyl residues are frequently
post-
translationally deamidated to the corresponding glutamyl and aspartyl
residues. Alternatively,
these residues are deaminated under mildly acidic conditions. Other post-
translational
modifications include hydroxylation of proline and lysine, phosphorylation of
hydroxyl groups
of seryl, tyrosine or threonyl residues, methylation of the a-amino groups of
lysine, arginine, and
histidine side chains, see, e.g., T. E. Creighton, Proteins: Structure and
Molecular Properties, W.
H. Freeman & Co., San Francisco, pp. 79-86 (1983). Covalent modifications,
e.g., include fusion
proteins comprising a polypeptide according to the present disclosure, e.g.,
of a specified
sequence and their amino acid sequence variants, such as immunoadhesins, and N-
terminal
fusions to heterologous signal sequences.
The phrase "substantially identical" means that the relevant amino acid or
nucleotide
sequence (e.g., CDR(s), VH, or VL domain) will be identical to or have
insubstantial differences
(e.g., through conserved amino acid substitutions) in comparison to a
particular reference
sequence. Insubstantial differences include minor amino acid changes, such as
1 or 2
substitutions in a 5 amino acid sequence of a specified region. In the case of
antibodies, the
substituted antibody has the same specificity and has at least 50% of the
affinity of the same.
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Sequences substantially identical (e.g., at least about 85% sequence identity)
to the sequences
disclosed herein are also part of this application. In some embodiments, the
sequence identity
can be about 90% or greater, e.g., 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%,
98%, 99% or
higher.
"Identity" with respect to a native polypeptide and its functional derivative
is defined
herein as the percentage of amino acid residues in the candidate sequence that
are identical with
the residues of a corresponding native polypeptide, after aligning the
sequences and introducing
gaps, if necessary, to achieve the maximum percent identity, and not
considering any
conservative substitutions as part of the sequence identity. Neither N- or C-
terminal extensions
nor insertions shall be construed as reducing identity. Methods and computer
programs for the
alignment are well known. The percent identity can be determined by standard
alignment
algorithms, for example, the Basic Local Alignment Search Tool (BLAST)
described by Altshul
eta]. ((1990) J. Mol. Biol., 215: 403 410); the algorithm of Needleman et al.
((1970) J. Mol.
Biol., 48: 444 453); or the algorithm of Meyers et al. ((1988) Comput. Appl.
Biosci., 4: 11 17).
A set of parameters may be the Blosum 62 scoring matrix with a gap penalty of
12, a gap extend
penalty of 4, and a frameshift gap penalty of 5. The percent identity between
two amino acid or
nucleotide sequences can also be determined using the algorithm of E. Meyers
and W. Miller
((1989) CABIOS, 4:11-17) which has been incorporated into the ALIGN program
(version 2.0),
using a PAM120 weight residue table, a gap length penalty of 12 and a gap
penalty of 4.
"Amino acid(s)" refer to all naturally occurring L-a-amino acids, e.g., and
include D-
amino acids. The amino acids are identified by either the well known single-
letter or three-letter
designations.
The term "amino acid sequence variant" refers to molecules with some
differences in their
amino acid sequences as compared to the sequences according to the present
disclosure. Amino
acid sequence variants of a polypeptide according to the present disclosure,
e.g., of a specified
sequence, still have the ability to bind the human IL-17 or, e.g., inhibit IL-
6 production of IL-17
induced human dermal fibroblasts. Substitutional variants are those that have
at least one amino
acid residue removed and a different amino acid inserted in its place at the
same position in a
polypeptide according to the present disclosure, e.g., of a specified
sequence. These substitutions
may be single, where only one amino acid in the molecule has been substituted,
or they may be
multiple, where two or more amino acids have been substituted in the same
molecule. Insertional
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variants are those with one or more amino acids inserted immediately adjacent
to an amino acid
at a particular position in a polypeptide according to the present disclosure,
e.g., of a specified
sequence. Immediately adjacent to an amino acid means connected to either the
a-caxboxy or a-
amino functional group of the amino acid. Deletional variants are those with
one or more amino
acids in a polypeptide according to the present disclosure, e.g., of a
specified sequence, removed.
Ordinarily, deletional variants will have one or two amino acids deleted in a
particular region of
the molecule.
As used herein, a "therapeutically effective amount" refers to an amount of an
IL-17
antagonist, e.g., IL47 binding molecule (e.g., IL-17 antibody or antigen
binding fragment
thereof, e.g., secukinumab) or 1L-17 receptor binding molecule (e.g., 1L-17
antibody or antigen
binding fragment thereof) that is effective, upon single or multiple dose
administration to a
subject (such as a human patient) at treating, preventing, preventing the
onset of, curing,
delaying, reducing the severity of, ameliorating at least one symptom of a
disorder or recurring
disorder, or prolonging the survival of the subject beyond that expected in
the absence of such
treatment. When applied to an individual active ingredient (e.g., an IL-17
antagonist, e.g., 1L-17
binding molecule (e.g., 1L-17 antibody or antigen binding fragment thereof,
e.g., secukinumab)
or IL-17 receptor binding molecule (e.g., IL-17 antibody or antigen binding
fragment thereof))
administered alone, the term refers to that ingredient alone. When applied to
a combination, the
term refers to combined amounts of the active ingredients that result in the
therapeutic effect,
whether administered in combination, serially or simultaneously.
The terms "treatment" or "treat" refer to both prophylactic or preventative
treatment as
well as curative or disease modifying treatment, including treatment of
patient at risk of
contracting the disease or suspected to have contracted the disease as well as
patients who are ill
or have been diagnosed as suffering from a disease or medical condition, and
includes
suppression of clinical relapse. The treatment may be administered to a
subject having a medical
disorder or who ultimately may acquire the disorder, in order to prevent,
cure, delay the onset of,
reduce the severity of, or ameliorate one or more symptoms of a disorder or
recurring disorder,
or in order to prolong the survival of a subject beyond that expected in the
absence of such
treatment.
As used herein, the phrase "inflammatory arthritis" refers to a variety of
conditions of the
joints that involve the immune system and inflammation, and includes
autoimmune disorders,
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e.g., rhuematoid arthritis. Non-limiting examples include seronegative
spondyloarthropathies
such as AS, Reiter's syndrome, PsA, enteropathic arthtits, and other
arthropathies such as RA,
juvenile rheumatoid arthritis and systemic onset rheumatoid arthritis,
crystaline arthritis (gout
pseudogout, apatite gout), polymyalgia rheumatica, amyloid arthritis, pigment
villonodular
synovitis, synovial chondromatosis, hemophilic arhritis, and reactive
synovitis. In some
embodiments of the disclosed methods, regimens, uses, kits, and pharmaceutical
compositions,
the patient has an inflammatory arthridities.
As used herein, the phrases "ankylosing spondylitis", "AS', and
"spodyloarthropathy"
refer to inflammatory arthridities characterized by chronic inflammation of
joints, which can
include the spine and the sacroilium in the pelvis, and which can cause
eventual fusion of the
spine. The modified New York criteria for AS or the ASAS axial SPA criteria
(2009) may be
used to diagnose a patient as having AS. In some embodiments of the disclosed
methods,
regimens, uses, kits, and pharmaceutical compositions, the patient has AS.
As used herein, the phrase "psoriatic arthritis" and "PsA" refer to an
inflammatory
arthridities that is often associated with psoriasis of the skin. A variety of
criteria, e.g. Moll and
Wright criteria, Modified ESSG criteria, McGonagle criteria, the
Classification Criteria for
Psoriatic Arthritis (CASPAR) criteria, etc. may be used to diagnose a patient
as having PsA. In
some embodiments of the disclosed methods, regimens, uses, kits, and
pharmaceutical
compositions, the patient has PsA.
As used herein, "rheumatoid arthritis" or "RA" refers to a chronic, systemic
inflammatory
arthridities that may affect many tissues and organs, but principally attacks
synovial joints. The
2010 ACR/EULAR criteria may be used to diagnose a patient as having RA. In
some
embodiments of the disclosed methods, regimens, uses, kits, and pharmaceutical
compositions,
the patient has RA_
As used herein, the phrase "2010 ACR/EULAR criteria" refers to the 2010
American
College of Rheumatology/European League Against Rheumatism classification
criteria for RA
found in Aletaha et al. (2010) Ann. Rheum. Dis. 69:1580-1588. That criteria,
which is used to
classify a patient as having rheumatoid arthritis, is set forth in Table 1.
As used herein, "C-reactive protein" and "CRP" refers to serum C-reactive
protein, a
plasma protein commonly used as an indicator of the acute phase response to
inflammation. The
level of CRP in plasma may be given in any concentration, e.g., mg/di, nmol/L.
Levels of CRP
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may be measured by a variety of well known methods, e.g., radial
immunodiffusion,
electroimmunoassay, immunoturbidimetry, ELISA, turbidimetric methods,
fluorescence
polarization immunoassay, and laser nephelometry. Testing for CRP may employ a
standard
CRP test or a high sensitivity CRP (hs-CRP) test (i.e., a high sensitivity
test that is capable of
measuring low levels of CRP in a sample using laser nephelometry). Kits for
detecting levels of
CRP may be purchased from various companies, e.g., Calbiotech, Inc, Cayman
Chemical, Roche
Diagnostics Corporation, Abazyrne, DADE Behring, Abnova Corporation, Aniara
Corporation,
Bio-Quant Inc., Siemens Ilealthcare Diagnostics, etc.
As used herein "high level of CRP" refers to an above normal CRP level as
defined in the
2010 ACR/EULAR criteria (Aletaha et al. (2010) Ann. Rheum. Dis. 69:1580-88).
According to
the 2010 ACR/EULAR criteria, normal / abnormal CRP is based on local
laboratory standards.
Each local laboratory will employ a cutoff value for abnormal (high) CRP based
on that
laboratory's rule for calculating normal maximum CRP. A physician generally
orders a CRP test
from a local laboratory, and the local laboratory reports normal or abnormal
(low or high) CRP
using the rule that particular laboratory employs to calculate normal CRP.
Thus, unless the
context dictates otherwise, as used herein "high level of CRP" is not meant to
denote a particular
numerical value, as what is considered a normal CRP value will differ between
laboratories and
assays. In some embodiments of the disclosure, a "high level of CRP" is >
about 10 mg/L (e.g.,
mg/L), > about 20 mg/L (e.g., 20 mg/L) or > about 30 mg/L (e.g., 30 mg/L). The
CRP level,
when assessed at baseline, is referred to as "baseline CRP". A high level of
CRP at baseline may
be referred to as "elevated baseline CRP" or "high baseline CRP". In some
embodiments of the
disclosed methods, regimens, uses, kits, and pharmaceutical compositions, the
patient has a high
baseline CRP (or hsCRP) or a high level of CRP (or hsCRP). The term "hsCRP"
refers to the
level of CRP in the blood as measured by high sensitivity CRP testing.
As used herein, "erythrocyte sedimentation rate", "ESR", "sedimentation rate",
and
"sedrate refer to the rate of sedimentation of erythrocytes in a patient
sample (e.g., plasma
sample). An ESR reflects plasma viscosity and the presence of acute phase
proteins, and is
normally reported in "mm/hr". ESR is performed by measuring the distance that
red blood cells
precipitate in a tube over time. Typical ESR testing methods utilize the
Westergren test, the Zeta
Sedimentation Rate (ZSR) test and the Wintrobe test. (See, Moseley and Bull
(1982) Clin. Lab
Haematol. 4:169-78; Miller et al. (1983) Br Med .1 (Clin Res Ed) 286
(6361):266, Wetteland Pet
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al. (1996) J. Intern. Med. 240 (3): 125--310). Commercial kits for measuring
ESR are available
from, e.g., ARKRAY USA, BD Diagnostic Systems, and Polyrnedco Inc. ESR
instruments
may be found, e.g, in US Patent 6974701, and from various companies, such as
Steel lex Scientific,
Nicesound Electronics Co., Globe Scientific Inc., Alifax, AnalysisInstrument
AB,
Streck Laboratories, PolyMed Co, Inc., and Quantimetrix.
As used herein "high ESR" refers to an above normal ESR as defined in the 2010
ACR/EULAR criteria (Aletaha et al. (2010) Ann. Rheum. Dis. 69:1580-88).
According to the
2010 ACR/EULAR criteria, normal i.abnormal ESR is based on local laboratory
standards. Each
local laboratory will employ a cutoff value for abnormal (high) ESR based on
that laboratory's
rule for calculating normal maximum ESR. A physician generally orders an ESR
test from a
local laboratory, and the local laboratory will reportnonnal or high ESR using
the rule that
laboratory employs to calculate normal ESR. Thus, unless the context dictates
otherwise, as
used herein "high ESR" is not meant to denote a particular numerical value, as
what is
considered a normal ESR value will differ between laboratories and assays. In
some
embodiments of the disclosed methods, regimens, uses, kits, and pharmaceutical
compositions,
the patient has a high ESR.
As used herein, "rheumatoid factor" or "RF" refers to autoantibodie.s against
the Fc
portion of IgG antibodies, which are often present in RA patients As used
herein "RF" includes
any RF isotype, eg, IgG, IgE, Ig,M and IgA. RF can be assayed using a variety
of well-known
techniques that are available to determine the presence or absence of a
particular antibody, e.g.,
an ELISA assay, an agglutination test, a nephelometry test, etc. RF levels may
be reported by
laboratories in a variety of ways, e.g., IU/ml, units/ml, and titer (using a
dilution test to measure
how much a blood sample from a patient may be diluted before RF can no longer
be detected,
e.g., a titer of I :SO indicates more detectable RF than a titer of 1:20). RF
kits are commercially
available, e.g., from IBL -America (Immuno-Biological Laboratories).
A patient that is seropositive for RF is referred to herein as "RF+".
Similarly, if a sample
from a patient has RF, then that sample is "RF+". Each local laboratory will
envloy a cutoff
value for normal RF levels based on that laboratory's rule for calculating
normal maximum RF.
As suggested by Aletaha et al. (2010) Ann. Rheum. Dis. 69:1580-1588, a patient
will be
considered RF+ based on the upper limit of normal [ULM for the respective
laboratory test and
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assay; a patient is RF+ if a value greater than the ULN for the respective
laboratory test and
assay is determined. Accordingly, unless the context dictates otherwise, as
used herein "RF+" is
not meant to denote a particular numerical value, as the ULN win differ
between laboratories and
assays. As a non-limiting example, at the time of testing, Laboratory X gives
the normal range
of RF in the blood as 14 ¨ 60 units/mL. At the time of testing, Laboratory Y
gives the normal
range of RF in the blood as <40 IU/ml. At the time of testing, Laboratory Z
gives the normal
range of RF in the blood as 1:20 to 1:80 titer. Thus, a patient would be RF+
if Laboratory X
returned an RF level of greater than 60 units/ml, if Laboratory Y returned an
RF value of
greather than 40 IU/ml, or if Laboratory Z returned an RF titer greater than
1:80. In some
embodiments of the disclosed methods, regimens, uses, kits, and pharmaceutical
compositions,
the patient is RF+.
The term "seropositive" used to mean the presence of a specific substance
(e.g., RF) in a
patient's blood serum.
As used herein, "anti-citrullinated protein antibody", "ACPA", "anti-cyclic
citrullinated
peptide antibody" and "anti-CCP" refers to autoantibodies that bind
citrullinated amino acid
residues on proteins, which are found in the joints of in RA patients. Cyclic
citrullinated
peptides are used in in vitro tests (e.g., ELISA assays) to determine the
presence of ACPA in a
patient's blood; as a result, an ACPA is also referred to as an "anti-CCP"
antibody. ACPA levels
can be assayed using a variety of well-known techniques that are available to
determine the
presence or absence of a particular antibody, e.g., agglutination, ELISA
assay, etc. ACPA kits
are commercially available, e.g., the DIASTATO anti-CCP test from Axis-Shield
Diagnostics,
Ltd. (UK) and AxSYM Anti-CCP* kit from Abbot Diagnonstics (Germany).
A patient that is seropositive for ACPA is referred to herein as "ACPA+".
Similarly, if a
sample from a patient has ACPA, then that sample is "ACPA+". Each local
laboratory will
employ a cutoff value for normal ACPA levels based on that laboratory's rule
for calculating
normal maximum ACPA. As suggested by Aletaha et al. (2010) Ann. Rheum. Dis.
69:1580-
1588, a patient will be considered ACPA+ based on the upper limit of normal
[ULM for the
respective laboratory test and assay; a patient is ACPA¨ if a value greater
than the ULN for the
respective laboratory test and assay is determined. Accordingly, unless the
context dictates
otherwise, as used herein "ACPA+" is not meant to denote a particular
numerical value, as the
ULN will differ between laboratories and assays. As a non-limiting, at the
time of testing,
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Laboratory A gives the reference range of ACPA in the blood as < 20 EU
(arbitrary ELISA
units). At the time of testing, Laboratory B gives the reference range of ACPA
in the blood as <
U/ml. Thus, a patient would be ACPA+ if Laboratory A returned an ACPA value
greater than
20 EU or if Laboratory-gretumed an ACPA value of greater than 5 U/ml. In some
embodiments
of the disclosed methods, regimens, uses, kits, and pharmaceutical
compositions, the patient is
ACPA+.
Select normal / abnormal and reference ranges for ACPA, ESR, RF and CRP may be
found, e.g., in Fischbach and Dunning (2009) "A Manual of Laboratory and
Diagnositc Tests"
(8th Edition) Wolters Kluwer/Lippincott Williams and Williams.
As used herein, the phrase "high risk RA patient" is used to define a patient
that: a) is
RF+, ACPA+ or both RF+ and ACPA+; and b) has a high level of CRP (or hsCRP), a
high ESR,
or both a high level of CRP and a high ESR. In some embodiments of the
disclosed methods,
regimens, uses, kits, and pharmaceutical compositions, the patient is a high
risk RA patient. In
some embodiments, the patient presents with involvement of at least one. two,
three four, five,
six, seven, eight, nine or ten small joints. In some embodiments, the patient
presents with
involvement of at least one, two, three four, five, six, seven, eight, nine or
ten large joints. In
some embodiments, the patient presents with involvement of greater than ten
joints, with at least
one of the joints being a small joint. In some embodiments, the patient has
duration of
symptoms of at least six weeks.
"Joint involvement" refers to any swollen or tender joint on examination,
which may be
confirmed by imaging evidence of synovitis. Categories of joint distribution
are classified
according to the location and number of involved joints, with placement into
the highest category
possible based on the pattern of joint involvement. "Large joints" refers to
shoulders, elbows,
hips, knees, and ankles. "Small joints" refers to the metacarpophalangeal
joints, proximal
interphalangeal joints, second through fifth metatarsophalangeal joints, thumb
interphalangeal
joints, and wrists. In some embodiments of the disclosed methods, regimens,
uses, kits and
compositions, a patient has > 6 out of 28 tender joints and > 6 out of 28
swollen joints and
hsCRP > 10 mg/L.
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"Duration of symptoms" refers to patient self-report of the duration of signs
or symptoms
of synovitis (e.g., pain, swelling, tenderness) of joints that are clinically
involved at the time of
assessment, regardless of treatment status.
As used herein, "selecting a high risk RA patient for treatment" and
"selecting a patient for
treatment on the basis of the patient being a high risk RA patient" and
"selected for treatment" is
used to mean that a particular RA patient is chosen from a larger group or RA
patients based on
that particular patient fulfilling the high risk RA criteria (i.e., the
patient is RF+, ACPA+, or both
RF+ and ACPA+; and the patient has a high level of CRP, a high ESR, or both a
high level of
CRP and a high ESR).
As used herein, the phrase "has been previously treated for RA" is used to
mean a patient
that has previously undergone RA treatment using an anti-rheumatic agent,
e.g., the patient is a
failure, an inadequate responder, or intolerant to a previous RA therapy, anti-
rheumatic agent or
treatment regimen. Such patients include those previously treated with MTX,
DIVIARDs, and/or
biologics, such as TNF alpha antagonists, etc. In some embodiments of the
disclosed methods,
regimens, uses, kits, and pharmaceutical compositions, the patient has been
previously treated for
RA.
As used herein, the phrase "has not been previously treated for RA" is used to
mean a
patient that has not previously undergone RA treatment using an anti-rheumatic
agen, i.e., the
patient is "naïve". In some embodiments of the disclosed methods, regimens,
uses, kits, and
pharmaceutical compositions, the patient has not been previously treated for
RA.
As used herein, a "failure" to a previous RA therapy refers to: (1) a patient
who has no
meaningful clinical benefit (primary lack of efficacy); (2) a patient who has
a measurable and
meaningful response, but for whom response could be better, e.g., low RA
disease activity or RA
remission was not achieved (also termed "inadequate response"); (3).a patient
who, after an
initial good response, worsens (secondary loss of efficacy); and (4) a patient
who has a good
response but discontinues because of a side effect (also termed
"intolerance"). Patients who
show TNF inadequate response (TNF-IR) or intolerance to TNF would be
considered TNF
failures. Patients who show methotrexate inadequate response (MTX-1R) or
intolerance to MTX
would be considered MTX failures. Patients who show DMARD inadequate response
(DMARD-IR) or intolerance to DMARDs would be considered DMARD failures. In
some
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embodiments of the disclosed methods, regimens, uses, kits, and pharmaceutical
compositions,
the patient is a TNF failure, a MTX failure, or a DMARD failure.
By "therapeutic regimen" is meant the pattern of treatment of an illness,
e.g., the pattern of
dosing used during the treatment of RA. A therapeutic regimen may include an
induction
regimen and a maintenance regimen. Examples of therapeutic regimens for
treatment of RA are
given in Table 2, none of which provide for treatment of a high risk RA
patient.
Standard Route Induction Regimen Maintenance Regimen
ADALIMUMAB s.c. NA 40 mg every other week. Some
Hutnira patients with RA not receiving
methotrexate may benefit from
increasing the frequency to 40 mg
every week.
ETANERCEPT s.c. NA 50 mg once weekly with or
without
Enbrel methotrexate (MTX).
INFLIXIMAB i.v. 3 mg/kg at 0,2, and 6 3 mg/kg every 8 weeks
thereafter. For
Remicada weeks patients who have an incomplete
response, consideration may be given
to adjusting the dose up to 10 mg/kg
or treating as often as every 4 weeks.
CERTOL1ZUMAB PEGOL s.c. 400 mg (given as two s.c. 200 mg every other
week; for
Cimzia doses of 200 mg) initially maintenance dosing, 400
mg every 4
and at weeks 2 and 4. weeks can be considered.
GOLIMUMAB Sitnponit s.c. NA 50 mg administered once a month.
ANA1UNRA Kineret S.C. NA 100 mg/day administered daily.
RITUXIMAB ix. two 1000 mg IV infusions Subsequent courses
should be
Rittman separated by 2 weeks (one administered every 24
weeks or based
course). on clinical evaluation, but not
sooner
than every 16 weeks.
ABATACEPT Drench& i.v. <60 kg ¨ 500 mg; Every 4 weeks thereafter.
60 to 100 kg - 750 mg;
>100 kg= 1000 mg
initially, then 2 and 4
weeks after initial infuion
TOCILIZUMAB Actemra i.v. NA 4 mg/kg once every 4 weeks
followed
by an increase to 8 mg/kg based on
clinical response.
Table 2: Examples of therapeutic regimens for biological treatment of
rheumatoid arthritis (RA)
The phrase "induction regimen" or "induction period" refers to a treatment
regimen (or the
portion of a treatment regimen) that is used for the initial treatment of a
disease. In some
embodiments, the disclosed methods, uses, kits, processes and regimens (e.g.,
methods of
treating an inflammatory arthridities, e.g., RA, such as a high risk RA
patient) employ an
induction regimen. The general goal of an induction regimen is to provide a
high level of drug to
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a patient during the initial period of a treatment regimen. An induction
regimen may employ (in
part or in whole) administration of a greater dose of the drug than a
physician would employ
during a maintenance regimen, administering a drug more frequently than a
physician would
administer the drug during a maintenance regimen, or both. In some embodiments
of the
disclosed methods, uses, kits, processes and regimens the induction dose may
be delivered
druing an induction regimen as a single high dose infusion (e.g., about 30
mg/kg). Alternatively,
an induction dose may be delivered as several (e.g., two or three) infusions
(e.g., about 10
mg/kg). Alternatively, an induction dose may be delivered as several (e.g.,
1,2, 3,4, 5, 6 or
more) subcutaneous injections (e.g., about 75-300 mg). Delivery of drug during
an induction
regimen may be via a subcutaneous (s.c.) route, e.g., delivery of dosages of
about 75 mg - about
300 mg s.c. (e.g., about 75 mg s.c., about 150 mg s.c., about 300 mg s.c.), or
via an intravenous
(i.v.) route, e.g., delivery of dosages of about 1 mg/kg - about 30 mg/kg i.v.
(e.g., about 1 mg/kg,
about 3 mg/kg, about 10 mg/kg, about 30 mg/kg) or any other route of
administration (e.g.,
intramuscular, i.m.). In some embodiements of the disclosed methods,
compositions, kits, uses
and regimens the IL-17 antagonist (e.g., secukinumab) is delivered by i.v.
administration during
at least a portion of the induction regimen. In some embodiments, the
induction regimen
comprises administering a dose of about I mg/kg ¨ about 30 mg/kg, about I
mg/kg ¨ about 10
mg/kg, preferably about 10 mg/kg of the IL-17 antagonist (e.g., secukinumab).
In further
embodiments, the induction doses are delivered weekly, bi-weekly, every other
week, or monthly,
preferably every other week. In further embodiments, the induction regimen
employs 1 ¨ 10
doses of the IL-17 antagonist (e.g., secukinumab), preferably three doses of
the IL-17 antagonist
(e.g., secukinumab).
An induction regimen for delivery of an IL-17 antagonist, e.g., an IL-17
binding molecule
(e.g., an IL-17 antibody, such as secukinumab) or an IL-17 receptor binding
molecule (e.g., an
IL-17 receptor antibody) may also be designed using PK information (see Table
10), rather than
specific dosages. For the disclosed uses, regimens and methods (e.g., methods
of treating an
inflammatory arthridities, e.g., RA, such as a high risk RA patient), an
artisan may deliver an IL-
17 antagonist, e.g., an IL-17 binding molecule (e.g., an IL-17 antibody, such
as secukinumab) or
an IL-17 receptor binding molecule (e.g., an IL-17 receptor antibody) during
an induction
regimen to provide an average C. of about 360 Ag/mL ¨ about 401 Ag/mL.
Alternatively, an
artisan may deliver an IL-17 antagonist, e.g., an IL-17 binding molecule
(e.g., an IL-17 antibody,
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such as secukinumab) or an IL-I 7 receptor binding molecule (e.g., an 1L-17
receptor antibody)
during an induction regimen to provide an average C. of about 401 pg/mL, with
up to about a
30%-40% [+ or -] inter-patient variation for an average 90 kg human.
Alternatively, an artisan
may deliver an 1L-17 antagonist, e.g., an IL-17 binding molecule (e.g., an IL-
17 antibody, such
as secukinumab) or an IL-17 receptor binding molecule (e.g., an 1L-17 receptor
antibody) during
an induction regimen to provide an average Cmax of about 360 g/mL for an
average 75 kg
human. Alternatively, an artisan may deliver an 1L-17 antagonist, e.g., an IL-
17 binding
molecule (e.g., an IL-17 antibody, such as secukinumab) or an IL-17 receptor
binding molecule
(e.g., an IL-17 receptor antibody) during an induction regimen to provide
trough levels over 80
Itg/mL over a 10 week period for an average 75 kg human. In some embodiments,
the IL-17
antagonist is delivered week 0, 2 and 4 i.v. during an induction regimen to
provide an average
average Cmõõ of about 401 g/mL, with up to about a 30%-40% [+ or-] inter-
patient variation for
an average 90 kg human. In some embodiments, the 1L-17 antagonist is delivered
week 0,2 and
4 i.v. during an induction regimen to provide an average average of about
360 itg/mL for an
average 75 kg human. In other embodiments, the 1L-17 antagonist is delivered
week 0,2 and 4
i.v. during an induction regimen to provide trough levels over 80 i.tg,/mL
over a 10 week period
for an average 75 kg human.
The phrase "maintenance regimen" or "maintenance period" refers to a treatment
regimen
(or the portion of a treatment regimen) that is used for the maintenance of a
patient during
treatment of an illness. e.g., to keep the patient in remission for long
periods of time (months or
years). In some embodiments, the disclosed methods, uses and regimens (e.g.,
methods of
treating an inflammatory arthridities, e.g., RA, such as a high risk RA
patient) employ a
maintenance regimen. A maintenance regimen may employ continuous therapy
(e.g.,
administering a drug at a regular intervals, e.g., weekly, monthly, yearly,
etc.) or intermittent
therapy (e.g., interrupted treatment, intermittent treatment, treatment at
relapse, or treatment
upon achievement of a particular predetermined criteria [e.g., pain, disease
manifestation, etc.]).
Delivery of an IL-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17
antibody or antigen
binding fragment thereof, e.g., secukinumab) or IL-17 receptor binding
molecule (e.g., IL-17
antibody or antigen binding fragment thereof) during a maintenance regimen may
be via a
subcutaneous route, e.g., delivery of dosages of about 75 mg - about 300 mg
s.c. (e.g., about 75
mg s.c., about 150 mg s.c., about 300 mg s.c.), or via an intravenous route,
e.g., delivery of
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dosages of about about 1 mg/kg - about 30 mg/kg i.v. (e.g., about 1 mg/kg,
about 3 mg/kg, about
mg/kg, about 30 mg/kg), or any other route of administration (e.g,
intramuscular, i.m). In
some embodiments of the disclosed methods, uses and regimens, the 1L-17
antagonist (e.g.,
secukinumab) is delivered by s.c. administration during the maintenance
regimen. In some
embodiments, the maintenance regimen comprises administering a dose of about
75 mg ¨ about
300 mg, about 75 mg ¨ about 150 mg, preferably about 75 mg or about 150 mg of
the 1L-17
antagonist (e.g., secukinumab). In some embodiments, the maintenance regimen
comprises
administering a dose of the IL-17 antagonist (e.g., secukinumab) on a monthly
basis.
A maintenance regimen for delivery of an IL-17 antagonist, e.g., an IL-17
binding
molecule (e.g., an IL-17 antibody, such as secukinumab) or an 1L-17 receptor
binding molecule
(e.g., an IL-17 receptor antibody) may also be designed using PK information
(see Table 9),
rather than specific dosages. For the disclosed uses, regimens and methods
(e.g., methods of
treating an inflammatory arthridities, e.g., RA, such as a high risk RA
patient), an artisan may
deliver an IL-17 antagonist, e.g., an IL-17 binding molecule (e.g., an IL-17
antibody, such as
secukinumab) or an IL-17 receptor binding molecule (e.g, an IL-17 receptor
antibody) during a
maintenance regimen to provide an average steady-state trough level of about
9.4 ag/mL ¨ about
31 ug/mL (e.g., about 9.4 pg/mL, about 17.3 petnL, about 31 fig/mL), with up
to about a 30%
[+ or -] inter-patient variation for an average 75 kg (e.g., 71-79 kg) human.
Alternatively, an
artisan may deliver an IL-17 antagonist, e.g., an IL-17 binding molecule
(e.g., an IL-17 antibody,
such as secukinumab) or an IL-17 receptor binding molecule (e.g., an IL-17
receptor antibody)
during a maintenance regimen to provide an average steady-state trough level
of about 8.0
1.1g/mL ¨ about 30.0 g/mL (e.g., about 8.0 pg/mL, about 17 p,g/mL, about 30
g/mL) for an
average 75 kg human. In some embodiments, the 1L-17 antagonist is delivered
monthly during a
maintenance regimen to provide an average steady-state trough level of about
9.4 mg/mL ¨ about
31 pg/mL (e.g., about 9.4 pg/mL, about 17.3 mg/mL, about 31 mg/mL), with up to
about a 30%
[+ or.-] inter-patient variation for an average 70 kg human. In other
embodiments, the IL-17
antagonist is delivered monthly during a maintenance regimen to provide an
average steady-state
trough level of about 8.0 ug/mL ¨ about 30.0 g/mL (e.g., about 8.0 ag/mL,
about 17 ug/mL,
about 30 g/mL) for an average 75 kg human. Alternatively, an artisan may
deliver an IL-17
antagonist, e.g., an 1L-17 binding molecule (e.g., an IL-17 antibody, such as
secukinumab) or an
IL-17 receptor binding molecule (e.g., an IL-17 receptor antibody) during a
maintenance
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regimen to provide a mean AUC tau at steady state of about 314 mg*day/L -
about 1323
mg*day/L (e.g., about 314 mg*day/L to about 1256 mg*day/L, e.g., about 331
mg*day/L to
about 1323 mg*day/L).
The timing of dosing is generally measured from the day of the first dose of
secukinumab
(which is also known as "baseline"). However, different health care providers
use different
naming conventions, as shown in Table 3, below.
Week 0/1 1/2 2/3 3/4 4/5 5/6 6/7 7/8 8/9
9/10 10/11 etc
day 0/1 _
7/8 14/15 21/22 28/29 35/36 42/43 49/50 1 56/57 63/64 70/71 etc.
Table 3 ¨ Common naming conventions for dosing regimens. Bolded items refer to
the naming
convention used herein.
Notably, week zero may be referred to as week one in some naming conventions,
while
day zero may be referred to as day one in some naming conventions. Thus, it is
possible that
different physicians will designate, e.g., a dose as being given during week 3
/ on day 21, during
week 3 / on day 22, during week 4 / on day 21, during week 4 / on day 22,
while referring to the
same dosing schedule. For consistency, as used herein, the first week of
dosing will be referred
to as week zero, while the first day of dosing will be referred to as day 1.
Thus, as an example,
four induction doses of secukinumab administered weekly during an induction
regimen would be
provided during week 0 (e.g., on about day 1), during week 1 (e.g., on about
day 8), during week
2 (e.g., on about day 15), and during week 3 (e.g., on about day 22).
Induction doses may be
administered every two weeks (i.e., every other week), e.g., during week 0,
during week 2,
during week 4, etc. Induction doses may be administered every three weeks,
e.g., during week 0,
during week 3, during week 6, etc. Induction doses may be administered daily
for one week, e.g.,
on day 1 ¨7. It must be noted, however, that this naming convention is only
used for clarity, and
should not be construed as limiting.
As used herein, the phrase "means for administering" is used to indicate any
available
implement for systemically administering a biologic, including, but not
limited to, a pre-filled
syringe, a vial and syringe, an injection pen, an autoinjector, an i.v. drip
and bag, a pump, etc.
With such items, a patient may self-administer the drug (i.e., administer the
drug on their own
behalf) or a physician may administer the drug.
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Various aspects of the disclosure are described in further detail in the
following
subsections.
IL-17 Antagonists
The various disclosed phannaceutical compositions, regimens, processes, uses,
methods
and kits utilize an 1L-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-
17 antibody or antigen
binding fragment thereof, e.g., secukinumab) or 1L-17 receptor binding
molecule (e.gõ IL-17
antibody or antigen binding fragment thereof).
In one embodiment, the IL-17 antagonist, e.g., 1L-17 binding molecule (e.g.,
IL47
antibody or antigen binding fragment thereof, e.g., secukinumab), comprises at
least one
immunoglobulin heavy chain variable domain (VH) comprising in sequence
hypervariable
regions CDRI, CDR2 and CDR3, said CDR1 having the amino acid sequence SEQ ID
NO:1 (N-
Y-W-M-N), said CDR2 having the amino acid sequence SEQ ID NO2 (A-I-N-Q-D-G-S-E-
K-Y-
Y-V-G-S-V-K-G), and said CDR3 having the amino acid sequence SEQ ID NO:3 (D-Y-
Y-D-I-
L-T-D-Y-Y4-H-Y-W-Y-F-D-L).
In one embodiment, the IL-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17
antibody or antigen binding fragment thereof, e.g, secukinumab), comprises at
least one
immunoglobulin light chain variable domain (VI) comprising in sequence
hypervariable regions
CDR1', CDRT and CDR3', said CDR1' having the amino acid sequence SEQ ID NO:4
(R-A-S-
Q-S-V-S-S-S-Y-L-A), said CDRT having the amino acid sequence SEQ ID NO:5 (G-A-
S-S-R-
A-T) and said CDR3' having the,atninnacid sequence SEQ ID NO:6 (Q-Q-Y-G-S-S-F-
C-T).
In one embodiment, the 1L-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab), comprises at
least one
immunoglobulin heavy chain variable domain (VH) comprising in sequence
hypervariable
regions CDRI-x, CDR2-x and CDR3-x, said CDR1-x having the atnino acid sequence
SEQ ID
NO 11 (G-F-T-F-S-N-Y-W-M-N), said CDR2-x having the amino acid sequence SEQ ID
NO 12
and said CDR3-x having the amino acid sequence SEQ ID NO:13
In one embodiment, the 1L-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab), comprises at
least one
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immunoglobulin VII domain and at least one immunoglobulin VL domain, wherein:
a) the
immunoglobulin VH domain comprises: 1) hypervariable regions CDR1, CDR2 and
CDR3, said
CDR1 having the amino acid sequence SEQ ID NO: I, said CDR2 having the amino
acid
sequence SEQ ID NO:2, and said CDR3 having the amino acid sequence SEQ ID
NO:3; or
ii)hypervariable regions CDR1-x, CDR2-x and CDR3-x, said CDRI-x having the
amino acid
sequence SEQ ID NO:11, said CDR2-x having the amino acid sequence SEQ ID
NO:12, and
said CDR3-x having the amino acid sequence SEQ ID NO:13; and b) the
immunoglobulin VL
domain comprises hypervariable regions CDR1', CDR2' and CDR3', said CDR1'
having the
amino acid sequence SEQ ID NO:4, said CDR2' having the amino acid sequence SEQ
ID NO:5,
and said CDR3' having the amino acid sequence SEQ ID NO:6 or.
In one embodiment, the 1L-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab), comprises at
least one
immunoglobulin VI/ domain and at least one immunoglobulin VL domain, wherein:
a) the at least
one immunoglobulin VH domain comprises in sequence hypervariable regions CDR1,
CDR2 and
CDR3, said CORI having the amino acid sequence SEQ ID NO:1, said CDR2 having
the amino
acid sequence SEQ ID NO:2, and said CDR3 having the amino acid sequence SEQ ID
NO:3;
and b) the at least one immunoglobulin VL domain comprises in sequence
hypervariable regions
CDR1', CDR2' and CDR3', said CDR I ' having the amino acid sequence SEQ ID
NO:4, said
CDR2' having the amino acid sequence SEQ ID NO:5, and said CDR3' having the
amino acid
sequence SEQ ID NO:6.
In one embodiment, t the IL-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab), comprises at
least one
immunoglobulin VH domain and at least one immunoglobulin VL domain, wherein:
a) the at least
one immunoglobulin V11 domain comprises in sequence hypervariable regions CDRI-
x, CDR2-x
and CDR3-x, said CDR I-x having the amino acid sequence SEQ ID NO:11, said
CDR2-x having
the amino acid sequence SEQ ID NO:12, and said CDR3-x having the amino acid
sequence SEQ
ID NO:13; and b) the at least one immunoglobulin VL domain comprises in
sequence
hypervariable regions CDR1', CDR2' and CDR3', said CDR I ' having the amino
acid sequence
SEQ ID NO:4, said CDR2' having the amino acid sequence SEQ ID NO:5, and said
CDR3'
having the amino acid sequence SEQ ID NO:6.
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In one embodiment, the 1L-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab), comprises:
a) an
immunoglobulin heavy chain variable domain (VH) comprising the amino acid
sequence set forth
as SEQ ID NO:8; b) an immunoglobulin light chain variable domain (VI)
comprising the amino
acid sequence set forth as SEQ ID NO:10; c) an immunoglobulin VH domain
comprising the
amino acid sequence set forth as SEQ ID NO:8 and an immunoglobulin VI_ domain
comprising
the amino acid sequence set forth as SEQ ID NO:10; d) an immunoglobulin VH
domain
comprising the hypervariable regions set forth as SEQ ID NO:!, SEQ ID NO:2,
and SEQ ID
NO:3 e) an immunoglobulin VL domain comprising the hypervariable regions set
forth as SEQ
ID NO:4, SEQ ID NO:5 and SEQ ID NO:6; 0 an immunoglobulin VH domain comprising
the
hypervariable regions set forth as SEQ ID NO:11, SEQ ID NO:12 and SEQ ID
NO:13; g) an
immunoglobulin VH domain comprising the hypervariable regions set forth as SEQ
ID NO: I,
SEQ ID NO:2, and SEQ ID NO:3 and an immunoglobulin VL domain comprising the
hypervariable regions set forth as SEQ ID NO:4, SEQ ID NO:5 and SEQ ID NO:6;
or h) an
immunoglobulin VH domain comprising the hypervariable regions set forth as SEQ
ID NO:!!,
SEQ ID NO:12 and SEQ ID NO:13 and an immunoglobulin VL domain comprising the
hypervariable regions set forth as SEQ ID NO:4, SEQ ID NO:5 and SEQ ID NO:6.
For ease of reference the amino acid sequences of the hypervariable regions of
the
secukinumab monoclonal antibodies, based on the Kabat definition and as
determined by the X-
ray analysis andusing the approach of Chothia and coworkers, is provided in
Table 4, below.
Light-chain
CDRI' Kabat R-A-S-Q-S-V-S-S-S-Y-L-A (SEQ ID NO:4)
Chothia/X-ray (SEQ ID NO:4)
CDR2' Kabat G-A-S-S-R-A-T (SEQ ID NO:5)
Chothia/ X-ray G-A-S-S-R-A-T (SEQ ID NO:5)
CDR3' Kabat Q-Q-Y-G-S-S-P-C-T (SEQ ID NO:6)
Chothia/ X-ray (SEQ ID NO:6)
Heavy-chain
CDRI Kabat N-Y-W-M-N (SEQ ID NO:!)
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CDR1-x Chothia/ X-ray G-F-T-F-S-N-Y-W-M-N (SEQ ID NO:l 1)
CDR2 Kabat (SEQ ID NO:2)
. CDR2-x Chothiat X-ray A-I-N-Q-D-G-S-E-K-Y-Y (SEQ ID NO:12)
CDR3 Kabat (SEQ ID NO:3)
CDR3-x Chothia/ X-ray C-V-R-D-Y-Y-D-I-L-T-D-Y-Y-I-H-Y-W-Y-F-D-L-W-G
(SEQ ID
NO:13)
Table 4: Amino acid sequences of the hypervariable regions of the secukinumab
monoclonal antibodies. Amino
acid highlighted in bold are part of the CDR loops, while those shown in plain
style are part of the antibody
framework.
In preferred embodiments, the variable domains of both heavy and light chains
are of
human origin, for instance those of the secukinumab antibody which are shown
in SEQ ID
NO:10 (= variable domain of light chain, i.e., amino acid Ito 109 of SEQ ID
NO:10) and SEQ
ID NO:8 (= variable domain of heavy chain, i.e., amino acid Ito 127 of SEQ ID
NO:8). The
constant region domains preferably also comprise suitable human constant
region domains, for
instance as described in "Sequences of Proteins of Immunological Interest",
Kabat E.A. et al, US
Department of Health and Human Services, Public Health Service, National
Institute of Health.
In some embodiments, the IL-17 antagonist, e.g., 1L-17 binding molecule (e.g.,
1L-17
antibody or antigen binding fragment thereof, e.g., secukinumab), comprises
the variable light
domain of SEQ ID NO:10. In other embodiments, the IL-17 antagonist, e.g., IL-
17 binding
molecule (e.g., 1L-17 antibody or antigen binding fragment thereof, e.g.,
secukinumEtb),
comprises the variable heavy domain of SEQ ID NO:8. In other embodiments, the
IL-17
antagonist, e.g., IL-17 binding molecule (e.g., IL-17 antibody or antigen
binding fragment
thereof, e.g., secukinumab), comprises the variable light domain of SEQ ID
NO:10 and the
variable heavy domain of SEQ ID NO:8. In some embodiments, the IL-17
antagonist, e.g., IL-
17 binding molecule (e.g., IL-17 antibody or antigen binding fragment thereof,
e.g.,
secukinumab), comprises the three CDRs of SEQ ID NO:10. In other embodiments,
the IL-17
antagonist, e.g., 1L-17 binding molecule (e.g., 1L-17 antibody or antigen
binding fragment
thereof, e.g., secukinumab), comprises the three CDRs of SEQ ID NO:8. In other
embodiments,
an the IL-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17 antibody or
antigen binding
fragment thereof, e.g., secukinumab), comprises the three CDRs of SEQ ID NO:10
and the three
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CDRs of SEQ ID NO:8. CDRs of SEQ ID NO:8 and SEQ ID NO:10, according to both
the
Chothia and Kabat definition, may be found in Table 4.
In some embodiments, the 1L-17 antagonist, e.g., IL-17 binding molecule (e.g.,
1L-17
antibody or antigen binding fragment thereof, e.g., secukinumab), comprises
the light domain of
SEQ ID NO:15. In other embodiments, the IL-17 antagonist, e.g., IL-17 binding
molecule (e.g.,
IL-17 antibody or antigen binding fragment thereof, e.g., secukinumab),
comprises the heavy
domain of SEQ ID NO:17. In other embodiments, the IL-17 antagonist, e.g., IL-
17 binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof, e.g.,
secukinumab),
comprises the light domain of SEQ ID NO:15 and the heavy domain of SEQ ID
NO:17. In some
embodiments, the IL-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17
antibody or antigen
binding fragment thereof, e.g., secukinumab), comprises the three CDRs of SEQ
ID NO:15. In
other embodiments, the IL-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17 antibody or
antigen binding fragment thereof, e.g., secukinumab), comprises the three CDRs
of SEQ ID
NO:17. In other embodiments, the IL-17 antagonist, e.g., IL-I 7 binding
molecule (e.g., IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab), comprises
the three CDRs of
SEQ ID NO:15 and the three CDRs of SEQ ID NO:17. CDRs of SEQ ID NO:15 and SEQ
ID
NO:17, according to both the Chothia and Kabat definition, may be found in
Table 4.
Hypervariable regions may be associated with any kind of framework regions,
though
preferably are of human origin. Suitable framework regions are described in
Kabat E.A. et al,
ibid. The preferred heavy chain framework is a human heavy chain framework,
for instance that
of the secukinumab antibody. It consists in sequence, e.g., of FRI (amino acid
1 to 30 of SEQ
ID NO:8), FR2 (amino acid 36 to 49 of SEQ ID NO:8), FR3 (amino acid 67 to 98
of SEQ ID
NO:8) and FR4 (amino acid 117 to 127 of SEQ ID NO:8) regions. Taking into
consideration the
determined hypetvariable regions of secukinumab by X-ray analysis, another
preferred heavy
chain framework consists in sequence of FR1-x (amino acid Ito 25 of SEQ ID
NO:8), FR2-x
(amino acid 36 to 49 of SEQ ID NO:8), FR3-x (amino acid 61 to 95 of SEQ ID
NO:8) and FR4
(amino acid 119 to 127 of SEQ ID NO:8) regions. In a similar manner, the light
chain framework
consists, in sequence, of FRI' (amino acid Ito 23 of SEQ ID NO:10), FR2'
(amino acid 36 to 50
of SEQ ID NO: 10), FR3' (amino acid 58 to 89 of SEQ ID NO:10) and FR4' (amino
acid 99 to
109 of SEQ ID NO:10) regions.
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In one embodiment, the 1L-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab) is selected
from a human anti-
IL-17 antibody, which comprises at least: a) an immunoglobulin heavy chain or
fragment thereof
which comprises a variable domain comprising in sequence the hypervariable
regions CDR1,
CDR2 and CDR3 and the constant part or fragment thereof of a human heavy
chain; said CDRI
having the amino acid sequence SEQ ID NO:l, said CDR2 having the amino acid
sequence SEQ
ID NO:2, and said CDR3 having the amino acid sequence SEQ ID NO:3; and b) an
immunoglobulin light chain or fragment thereof, which comprises a variable
domain comprising
in sequence the hypervariable regions CDR1', CDR2', and CDR3' and the constant
part or
fragment thereof of a human light chain, said CDR1' having the amino acid
sequence SEQ ID
NO: 4, said CDR2' having the amino acid sequence SEQ ID NO:5, and said CDR3'
having the
amino acid sequence SEQ ID NO:6.
In one embodiment, the IL-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab) is selected
from a single chain
binding molecule, which comprises an antigen binding site comprising: a) a
first domain
comprising in sequence the hypervariable regions CDR1, CDR2 and CDR3, said
CDR1 having
the amino acid sequence SEQ ID NO:1, said CDR2 having the amino acid sequence
SEQ ID
NO:2, and said CDR3 having the amino acid sequence SEQ ID NO:3; and b) a
second domain
comprising the hypervariable regions CDR l', CDR2' and CDR3', said CDR1'
having the amino
acid sequence SEQ ID 'NO:4, said CDR2' having the amino acid sequence SEQ ID
NO:5, and
said CDR3' having the amino acid sequence SEQ ID NO:6; and c) a peptide linker
which is
bound either to the N-terminal extremity of the first domain and to the C-
terminal extremity of
the second domain or to the C-terminal extremity of the first domain and to
the N-terminal
extremity of the second domain.
Alternatively, the IL-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17
antibody or
antigen binding fragment thereof, e.g., secukinumab) may comprise at least one
antigen binding
site comprising at least one immunoglobulin heavy chain variable domain (VH)
which comprises
in sequence: a) hypervariable regions CDR1 (SEQ ID NO:1), CDR2 (SEQ ID NO:2)
and CDR3
(SEQ ID NO:3); or b) hypervariable regions CDR I õ CDR2,, CDR3,, said
hypervariable region
CDRI, differs by 3, preferably 2 more preferably 1 amino acid(s) from the
hypervariable region
of CDRI as shown in SEQ ID NO:1, said hypervariable region CDRZ differs by 3,
preferably 2,
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more preferably I amino acid(s) from the hypervariable region of CDR2 as shown
in SEQ ID
NO:2; and said hypervariable region CDR3; differs by 3, preferably 2, more
preferably I amino
acid(s) from the hypervariable region of CDR3 as shown in SEQ ID NO:3; and
said binding IL-
17 molecule is capable of inhibiting the activity of about I nM (= 30ng/m1)
human IL-17 at a
concentration of about 50 nM or less, about 20 nM or less, about 10 tiM or
less, about 5 nM or
less, about 2 nM or less, or more preferably of about I nM or less of said
molecule by 50%, said
inhibitory activity being measured on IL-6 production induced by hu-IL-17 in
human dermal
fibroblasts.
Similarly, the 1L-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17
antibody or
antigen binding fragment thereof, e.g., secukinumab) may comprise at least one
antigen binding
site comprising at least one immunoglobulin heavy chain variable domain (VH)
which comprises
in sequence: a) hypervariable regions CDRI-x (SEQ ID NO:11), CDR2-x (SEQ ID
NO:12) and
CDR3-x (SEQ ID NO:13); or b) hypervariable regions CDRIi-x, CDRZ-x, CDR3,-x,
said
hypervariable region CDRI rx differs by 3, preferably 2, more preferably 1
amino acid(s) from
the hypervariable region of CDR1-x as shown in SEQ ID NO: 11, said
hypervariable region
CDR2,-x differs by 3, preferably 2, more preferably 1 amino acid(s) from the
hypervariable
region of CDR2-x as shown in SEQ ID NO:12; and said hypervariable region CDR31-
x differs by
3, preferably 2, more preferably I amino acid(s) from the hypervariable region
of CDR3-x as
shown in SEQ ID NO:13; and said binding 1L-17 molecule is capable of
inhibiting the activity of
1 nM (= 30ng/m1) human 1L-17 at a concentration of about 50 nM or less, about
20 nM or less,
about 10 nM or less, about 5 nM or less, about 2 nM or less, or more
preferably of about 1 nM or
less of said molecule by 50%, said inhibitory activity being measured on IL-6
production
induced by hu-1L-17 in human dermal fibroblasts.
Similarly, the IL-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17
antibody or
antigen binding fragment thereof, e.g., secukinumab) may comprise at least one
antigen binding
site comprising at least one immunoglobulin light chain variable domain (VI)
which comprises
in sequence: a) hypervariable regions CDR'l (SEQ ID NO:4), CDR'2 (SEQ ID NO:5)
and
CDR'3 (SEQ ID NO:6); orb) hypervariable regions CDR I CDR2'õ CDR3'1, said
hypervariable region CDR' 1, differs by 3, preferably 2, more preferably I
amino acid(s) from the
hypervariable region of CDR'l as shown in SEQ ID NO:4, said hypervariable
region CDR'21
differs by 3, preferably 2, more preferably 1 amino acid(s) from the
hypervariable region of
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CDR'2 as shown in SEQ ID NO:5; and said hypervariable region CDR'31 differs by
3, preferably
2, more preferably 1 amino acid(s) from the hypervariable region of CDR'3 as
shown in SEQ ID
NO:6; and said binding IL-17 molecule is capable of inhibiting the activity of
1 nM (= 30ng/m1)
human IL-17 at a concentration of about 50 nM or less, about 20 nM or less,
about 10 nM or less,
about 5 nM or less, about 2 nM or less, or more preferably of about 1 nM or
less of said
molecule by 50%, said inhibitory activity being measured on IL-6 production
induced by hu-IL-
17 in human dermal fibroblasts.
Alternatively, the IL-17 antagonist, e.g., IL-17 binding molecule (e.g., 1L-17
antibody or
antigen binding fragment thereof, e.g., secukinumab) may comprise both heavy
(VH) and light
chain (VI) variable domains and said IL-17 binding molecule having at least
one antigen binding
site comprising: a) an immunoglobulin heavy chain variable domain (VH) which
comprises in
sequence hypervariable regions CDR1 (SEQ ID NO:1), CDR2 (SEQ ID NO2) and CDR3
(SEQ
ID NO: ); and an immunoglobulin light chain variable domain (VI) which
comprises in sequence
hypervariable regions CDR!' (SEQ ID NO:4), CDR2' (SEQ ID NO:5) and CDR3' (SEQ
ID
NO:6); or b) an immunoglobulin heavy chain variable domain (VH) which
comprises in
sequence hypervariable regions CDR11, CDR2i, and CDR3, said hypervariable
region CDRI
differs by 3, preferably 2, more preferably 1 amino acid(s) from the
hypervariable region of
CDR1 as shown in SEQ ID Nal, said hypervariable region CDR2, differs by 3,
preferably 2,
more preferably I amino acid(s) from the hypervariable region of CDR2 as shown
in SEQ ID
NO:2; and said hypervariable region CDR3, differs by 3, preferably 2, more
preferably 1 amino
acid(s) from the hypervariable region of CDR3 as shown in SEQ ID NO:3; and an
immunoglobulin light chain variable domain (VI) which comprises in sequence
hypervariable
regions CDR1',, CDR2%, CDR3'1, said hypervariable region CDR' 1, differs by 3,
preferably 2,
more preferably 1 amino acid(s) from the hypervariable region of CDR'l as
shown in SEQ ID
NO:4, said hypervariable region CDR'2; differs by 3, preferably 2, more
preferably I amino
acid(s) from the hypervariable region of CDR'2 as shown in SEQ ID NO:5; and
said
hypervariable region CDR'31 differs by 3, preferably 2, more preferably 1
amino acid(s) from the
hypervariable region of CDR'3 as shown in SEQ ID NO:6; and said binding 1L-17
molecule is
capable of inhibiting the activity of 1 nM (= 30ng/m1) human IL-17 at a
concentration of about
50 nM or less, about 20 nM or less, about 10 nM or less, about 5 nM or less,
about 2 nM or less,
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or more preferably of about 1 nM or less of said molecule by 50%, said
inhibitory activity being
measured on IL-6 production induced by hu-1L-17 in human dermal fibroblasts.
Alternatively, the IL-17 antagonist, e.g., 1L-17 binding molecule (e.g., 1L-17
antibody or
antigen binding fragment thereof, e.g., secukinumab) may comprise both heavy
(Vs) and light
chain (VL) variable domains and said IL-I 7 binding molecule comprises at
least one antigen
binding site comprising: a) an immunoglobulin heavy chain variable domain (VH)
which
comprises in sequence hypervariable regions CDR1-x (SEQ ID NO:11), CDR2-x (SEQ
ID
NO:12) and CDR3-x (SEQ ID NO:13); and an immunoglobulin light chain variable
domain (Vt.)
which comprises in sequence hypervariable regions CDR 1 ' (SEQ ID NO:4), CDR2'
(SEQ ID
NO: 5) and CDR3' (SEQ ID NO:6); or b) an immunoglobulin heavy chain variable
domain (VH)
which comprises in sequence hypervariable regions CDR I rx, CDR2rx, and CDR31-
x, said
hypervariable region hypervariable regions CDR1rx, CDRZ-x, CDR3rx, said
hypervariable
region CDR11-x differs by 3, preferably 2, more preferably 1 amino acid(s)
from the
hypervariable region of CDR1-x as shown in SEQ ID NO: 11, said hypervariable
region CDRZ-
x differs by 3, preferably 2, more preferably 1 amino acid(s) from the
hypervariable region of
CDR2-x as shown in SEQ ID NO:12; and said hypervariable region CDR3rx differs
by 3,
preferably 2, more preferably I amino acid(s) from the hypervariable region of
CDR3-x as
shown in SEQ ID NO: 13; and an immunoglobulin light chain variable domain (VI)
which
comprises in sequence hypervariable regions CDRI'i, CDRri, CDR3'1, said
hypervariable
region CDR' 1, differs by 3, preferably 2, more preferably I amino acid(s)
from the hypervariable
region of CDR' I as shown in SEQ ID NO: 4, said hypervariable region CDR'21
differs by 3,
preferably 2, more preferably I amino acid(s) from the hypervariable region of
CDR'2 as shown
in SEQ ID NO:5; and said hypervariable region CDR'3, differs by 3, preferably
2, more
preferably 1 amino acid(s) from the hypervariable region of CDR'3 as shown in
SEQ ID NO:6;
and said binding 1L-17 molecule is capable of inhibiting the activity of 1 nM
(= 30 nem') human
IL-17 at a concentration of about 50 nM or less, about 20 nM or less, about 10
nM or less, about
nM or less, about 2 nM .or less, or more preferably of about 1 nM or less of
said molecule by
50%, said inhibitory activity being measured on 1L-6 production induced by hu-
IL-17 in human
dermal fibroblasts.
A human IL-17 antibody disclosed herein may comprise a heavy chain that is
substantially
identical to that set forth as SEQ ID NO:17 and a light chain that is
substantially identical to that
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set forth as SEQ ID NO:15. A human 1L-17 antibody disclosed herein may
comprise a heavy
chain that comprises SEQ ID NO:17 and a light chain that comprises SEQ ID
NO:15.
A human IL-17 antibody disclosed herein may comprise: a) one heavy chain which
comprises a variable domain having an amino acid sequence substantially
identical to that shown
in SEQ ID NO:8 and the constant part of a human heavy chain; and b) one light
chain which
comprises a variable domain having an amino acid sequence substantially
identical to that shown
in SEQ ID NO:10 and the constant part of a human light chain.
The inhibition of the binding of IL-17 to its receptor may be conveniently
tested in various
assays including such assays as described in WO 2006/013107. By the term "to
the same
extent" is meant that the reference and the derivative molecules exhibit, on a
statistical basis,
essentially identical IL-17 inhibitory activity in one of the assays referred
to herein (see
Example 1 of WO 2006/013107). For example, the IL-17 binding molecules
disclosed herein
typically have 1050s for the inhibition of human IL-17 on IL-6 production
induced by human IL-
17 in human dermal fibroblasts which are below about 10 nM, more preferably
about 9, 8, 7, 6,
5,4, 3,2, or about 1 nM of that of, preferably substantially the same as, the
IC50 of the
corresponding reference molecule when assayed as described in Example 1 of WO
2006/013107.
Alternatively, the assay used may be an assay of competitive inhibition of
binding of IL-17 by
soluble IL-17 receptors (e.g. the human 1L-17 R/Fc constructs of Example I of
WO
2006/013107) and the IL-17 binding molecules of the disclosure.
The disclosure also includes IL-17 antagonists, e.g., 1L-17 binding molecules
(e.g., 1L-1 7
antibody or antigen binding fragment thereof, e.g., secukinumab) in which one
or more of the
amino acid residues of CDR1, CDR2, CDR3, CDRI-x, CDR2-x, CDR3-x, CDRI., CDR2'
or
CDR3' or the frameworks, typically only a few (e.g., 1-4), are changed; for
instance by mutation,
e.g., site directed mutagenesis of the corresponding DNA sequences. The
disclosure includes the
DNA sequences coding for such changed IL-17 binding molecules. In particular
the disclosure
includes IL-17 binding molecules in which one or more residues of CDR I ' or
CDR2' have been
changed from the residues shown in SEQ ID NO:4 (for CDR1') and SEQ ID NO:5
(for CDR2').
The disclosure also includes IL-17 antagonists, e.g., IL-17 binding molecules
(e.g., 1L-17
antibody or antigen binding fragment thereof, e.g., secukinumab) that have
binding specificity
for human IL-17, in particular IL-17 antibodies capable of inhibiting the
binding of IL-17 to its
receptor and IL-17 antibodies capable of inhibiting the activity of 1 nM (= 30
ng/ml) human IL-
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17 at a concentration of about 50 nM or less, about 20 nM or less, about 10 nM
or less, about 5
nM or less, about 2 nM or less, or more preferably of about 1 nM or less of
said molecule by
50% (said inhibitory activity' being measured on IL-6 production induced by hu-
IL-17 in human
dermal fibroblasts).
The disclosure provides methods for treating RA, comprising administering a
therapeutically effective amount of an 1L-17 antagonist, e.g., IL-17 binding
molecule (e.g., IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab) to a subject
suffering from RA,
e.g., a high risk RA patient. In some embodiments, the 1L-17 antibody, e.g.,
secukinumab, binds
to an epitope of mature human IL-17 comprising Leu74, Tyr85, His86, Met87,
Asn88, Va1124,
Thr125, Pro126, 11e127, Va1128, His129. In some embodiments, the 1L-17
antibody, e.g.,
secukinumab, binds to an epitope of mature human IL-17 comprising Tyr43,
Tyr44, Arg46,
Ala79, Asp80. In some embodiments, the 1L-17 antibody, e.g., secukinumab,
binds to an
epitope of an 1L-17 homodimer having two mature human IL-17 chains, said
epitope comprising
Leu74, Tyr85, His86, Met87, Asn88, Va1124, Thr125, Pro126, 11e127, Va1128,
His129 on one
chain and Tyr43, Tyr44, Arg46, Ala79, Asp80 on the other chain. The residue
numbering
scheme used to define these epitopes is based on residue one being the first
amino acid of the
mature protein (ie., IL-17A lacking the 23 amino acid N-terminal signal
peptide and beginning
With (3lycine). The sequence for immature IL-17A is set forth in the Swiss-
Prot entry Q16552.
In some embodiments, the IL-17 antibody has a K0 of about 100-200 pM. In some
embodiments, the IL-17 antibody has an ICso of about 0.4 nM for in vitro
neutralization of the
biological activity of about 0.67 nM human 1L-17A. In some embodiments, the
absolute
bioavailability of subcutaneously (s.c.) administered IL-17 antibody has a
range of about 60 ¨
about 80%, e.g., about 76%. In some embodiments, the IL-17 antagonist, e.g.,
an IL-17 binding
molecule (e.g., an IL-17 antibody, such as secukinumab) or an IL-17 receptor
binding molecule
(e.g., an IL-17 receptor antibody) has an elimination half-life of about 4
weeks (e.g., about 23 to
about 30 days, e.g., about 30 days). In some embodiments, the IL-17
antagonist, e.g., an IL-17
binding molecule (e.g., an IL-17 antibody, such as secukinumab) or an 1L-17
receptor binding
molecule (e.g., an IL-17 receptor antibody) has a Trnaõ of about 7-8 days.
In some embodiments of the disclosed methods, uses, pharmaceutical
compositions, kits,
assays, and treatment regimens, the IL-17 antagonist is selected from the
group consisting of: a)
an IL-17 binding molecule or an IL-17 receptor binding molecule; b)
secukinumab; c) an IL-17
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antibody that binds to an epitope of IL-17 comprising Leu74, Tyr85, His86,
Met87, Asn88,
Va1124, Thr125, Pro126, 11e127, Va1128, His129; d) an IL-17 antibody that
binds to an epitope
of IL-17 comprising Tyr43, Tyr44, Arg46, Ala79, Asp80; e) an IL-17 antibody
that binds to an
epitope of an IL-17 homodimer having two mature IL-17 protein chains, said
epitope comprising
Leu74, Tyr85, His86, Met87, Asn88, Va1124, Thr125, Pro126, 11e127, Va1128,
His129 on one
chain and Tyr43, Tyr44, Arg46, Ala79, Asp80 on the other chain; 0 an IL-17
antibody that binds
to an epitope of an IL-17 homodimer having two mature 1L-17 protein chains,
said epitope
comprising Leu74, Tyr85, His86, Met87, Asn88, Va1124, Thr125, Pro126, 11e127,
Va1128,
His129 on onc chain and Tyr43, Tyr44, Arg46, Ala79, Asp80 on the other chain,
wherein the IL-
17 binding molecule has a KD of about 100-200 pM, and wherein the IL-17
binding molecule has
an in vivo half-life of about 4 weeks; and g) an IL-17 antibody that comprises
an antibody
selected from the group consisting of: i) an immunoglobulin heavy chain
variable domain (VH)
comprising the amino acid sequence set forth as SEQ ID NO:8; ii) an
immunoglobulin light
chain variable domain (VL) comprising the amino acid sequence set forth as SEQ
ID NO:10; iii)
an immunoglobulin VH domain comprising the amino acid sequence set forth as
SEQ ID NO:8
and an immunoglobulin VL domain comprising the amino acid sequence set forth
as SEQ ID
NO:10; iv) an immunoglobulin VH domain comprising the hypervariable regions
set forth as
SEQ ID NO:1, SEQ ID NO:2, and SEQ ID NO:3; v) an immunoglobulin VL domain
comprising
the hypervariable regions set forth as SEQ ID NO:4, SEQ ID NO:5 and SEQ ID
NO:6; vi) an
immunoglobulin VH domain comprising the hypervariable regions set forth as SEQ
ID NO: II,
SEQ ID NO:12 and SEQ ID NO:13; vii) an immunoglobulin VH domain comprising the
hypervariable regions set forth as SEQ ID NO:1, SEQ ID NO:2, and SEQ ID NO:3
and an
immunoglobulin VL domain comprising the hypervariable regions set forth as SEQ
ID NO:4,
SEQ ID NO:5 and SEQ ID NO:6; and viii) an immunoglobulin Vii domain comprising
the
hypervariable regions set forth as SEQ ID NO:11, SEQ ID NO:12 and SEQ ID NO:13
and an
immunoglobulin VL domain comprising the hypervariable regions set forth as SEQ
ID NO:4,
SEQ ID NO:5 and SEQ ID NO:6.
Particularly preferred IL-17 antagonists, e.g., IL-17 binding molecules (e.g.,
IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab) or IL-17
receptor binding
molecules (e.g., IL-17 antibody or antigen binding fragment thereof) for use
in the disclosed
methods, uses, kits, etc. are human antibodies, especially secukinumab as
described in Examples
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1 and 2 of WO 2006/013107. Secukinumab (AIN457) is a recombinant high-
affinity, fully
human monoclonal anti-human interleukin-17A (IL-17A, IL-17) antibody of the
IgGl/kappa
isotype. Secukinumab (see, e.g., W02006/013107 and W02007/117749) has a very
high
affinity for IL-17, i.e., a KB of about 100-200 pM and an IC50 for in vitro
neutralization of the
biological activity of about 0.67 nM human IL-17A of about 0.4 nM. Thus,
secukinumab
inhibits antigen at a molar ratio of about 1:1. This high binding affinity
makes the secukinumab
antibody particularly suitable for therapeutic applications. Furthermore, it
has been determined
that secukinumab has a very long half life, i.e., about 4 weeks, which allows
for prolonged
periods between administration, an exceptional property when treating chronic
life-long
disorders, such as rheumatiod arthritis (RA).
Treatment Regimens, Methods of Treatment, Pharmaceutical Compositions and Uses
The disclosed IL-17 antagonists, e.g., IL-17 binding molecules (e.g., IL-17
antibody or
antigen binding fragment thereof, e.g., secukinumab) or IL-17 receptor binding
molecules (e.g.,
IL-17 antibody or antigen binding fragment thereof) are useful for the
treatment, prevention, or
amelioration of inflammatory arthritis (e.g., rheumatoid arthritis (RA),
spondyloarthropathy,
ankylosing spondylitis, and psoriatic arthritis). Thus, such molecules are
useful in inducing
changes in the signs and symptoms of arthritis & structural changes,
preventing further joint
erosion, improving joint structrue, etc. In some embodiments, the patient
having inflammatory
arthritis is an RA patient, e.g., a high risk RA patient.
The IL-17 antagonists, e.g., IL-17 binding molecules (e.g., IL-17 antibody or
antigen
binding fragment thereof, e.g., secukinumab) or 1L-17 receptor binding
molecules (e.g., IL-17
antibody or antigen binding fragment thereof) may be used in vitro, ex vivo,
or incorporated into
pharmaceutical compositions and administered to individuals (e.g., human
subjects) in vivo to
treat, ameliorate, or prevent RA, e.g., in high risk RA patients. A
pharmaceutical composition
will be formulated to be compatible with its intended route of administration
(e.g., oral
compositions generally include an inert diluent or an edible carrier). Other
nonlimiting examples
of routes of administration include parenteral (e.g., intravenous),
intradermal, subcutaneous, oral
(e.g., inhalation), transdermal (topical), transmucosal, and rectal
administration. The
pharmaceutical compositions compatible with each intended route are well known
in the art.
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The IL-17 antagonists, e.g., IL-17 binding molecules (e.g., IL-17 antibody or
antigen
binding fragment thereof, e.g., secukinumab) or IL-17 receptor binding
molecules (e.g., IL-17
antibody or antigen binding fragment thereof) may be used as a pharmaceutical
composition
when combined with a pharmaceutically acceptable carrier. Such a composition
may contain, in
addition to an IL-17 antagonist (e.g., secukinumab) carriers, various
diluents, fillers, salts,
buffers, stabilizers, solubilizers, and other materials well known in the art.
The characteristics of
the carrier will depend on the route of administration.
The pharmaceutical compositions for use in the disclosed methods may also
contain
additional therapeutic agents for treatment of the particular targeted
disorder. For example, a
pharmaceutical composition may also include anti-inflammatory agents. Such
additional factors
and/or agents may be included in the pharmaceutical composition to produce a
synergistic effect
with the 1L-17 antagonist (e.g., secukinumab), or to minimize side effects
caused by the IL-17
binding molecules.
The pharmaceutical composition of the disclosure may be in the form of a
liposome in
which the IL-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17 antibody
or antigen binding
fragment thereof, e.g., secukinumab) or IL-17 receptor binding molecule (e.g.,
IL-17 antibody or
antigen binding fragment thereof) is combined, in addition to other
pharmaceutically acceptable
carriers, with amphipathic agents such as lipids that exist in aggregated form
as micelles,
insoluble monolayers, liquid crystals, or lamellar layers in aqueous solution.
Suitable lipids for
liposomal formulation include, without limitation, monoglycerides,
diglycerides, sulfatides,
lysolecithin, phospholipids, saponin, bile acids, etc.
In practicing the methods of treatment, regirnena, uses, etc. of the present
disclosure, a
therapeutically effective amount of an IL-17 antagonist, e.g., IL-17 binding
molecule (e.g., IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab) or IL-17
receptor binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof) is
administered to a subject,
e.g., a mammal (e.g., a human). An IL-17 antagonist (e.g., secukinumab) may be
administered
in accordance with the method of the disclosure either alone or in combination
with other
therapies, such as, e.g., in combination with additional therapies for
inflammation. When
coadministered with one or more agents, an IL-17 antagonist (e.g.,
secukinumab) may be
administered either simultaneously with the other agent, or sequentially. If
administered
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sequentially, the attending physician will decide on the appropriate sequence
of administering
the IL-17 antagonist (e.g., secukinumab) in combination with other agents.
When a therapeutically effective amount of an IL-17 antagonist, e.g., IL-17
binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof, e.g.,
secukinumab) or IL-17
receptor binding molecule (e.g., IL-17 antibody or antigen binding fragment
thereof) is
administered orally, the binding agent will be in the form of a tablet,
capsule, powder, solution or
elixir. When administered in tablet form, the pharmaceutical composition of
the disclosure may
additionally contain a solid carrier such as a gelatin or an adjuvant. When
administered in liquid
form, a liquid carrier such as water, petroleum, oils of animal or plant
origin such as peanut oil
(exercising caution in relation to peanut allergies), mineral oil, soybean
oil, or sesame oil, or
synthetic oils may be added. The liquid form of the pharmaceutical composition
may further
contain components such as physiological saline solution, dextrose or other
saccharide solution,
or glycols such as ethylene glycol, propylene glycol, or polyethylene glycol.
When a therapeutically effective amount of an 1L-17 antagonist, e.g., 1L-17
binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof, e.g.,
secukinumab) or IL-17
receptor binding molecule (e.g., IL-17 antibody or antigen binding fragment
thereof) is
administered by intravenous, cutaneous or subcutaneous injection, the 1L-17
binding molecule
will be in the form of a pyrogen-free, parenterally acceptable solution. A
pharmaceutical
composition for intravenous, cutaneous, or subcutaneous injection may contain,
in addition to the
IL-17 antagonist (e.g., secukinumab), an isotonic vehicle such as sodium
chloride, Ringer's,
dextrose, dextrose and sodium chloride, lactated Ringer's, or other vehicle as
known in the art.
Pharmaceutical compositions for use in the disclosed methods may be
manufactured in
conventional manner. In one embodiment, the pharmaceutical composition is
preferably
provided in lyophilized form. For immediate administration it is dissolved in
a suitable aqueous
carrier, for example sterile water for injection or sterile buffered
physiological saline. If it is
considered desirable to make up a solution of larger volume for administration
by infusion rather
than a bolus injection, may be advantageous to incorporate human serum albumin
or the patient's
own heparinised blood into the saline at the time of formulation. The presence
of an excess of
such physiologically inert protein prevents loss of antibody by adsorption
onto the walls of the
container and tubing used with the infusion solution. If albumin is used, a
suitable concentration
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is from 0.5 to 4.5% by weight of the saline solution. Other formulations
comprise liquid or
lyophilized formulation.
The appropriate dosage will, of course, vary depending upon, for example, the
particular
1L-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17 antibody or
antigen binding fragment
thereof, e.g, secukinumab) or IL-17 receptor binding molecule (e.g., IL-17
antibody or antigen
binding fragment thereof) to be employed, the host, the mode of administration
and the nature
and severity of the condition being treated, and on the nature of prior
treatments that the patient
has undergone. Ultimately, the attending health care provider will decide the
amount of the IL-
17 antagonist (e.g., secukinumab) with which to treat each individual subject.
In some
embodiments, the attending health care provider may administer low doses of
the IL-17 binding
molecule and observe the subject's response. In other embodiments, the initial
dose(s) of IL-17
antagonist (e.g., secukinumab) administered to a subject are high, and then
are titrated downward
until signs of relapse occur. Larger doses of the 1L-17 antagonist (e.g.,
secukinumab)may be
administered until the optimal therapeutic effect is obtained for the subject,
and at that point the
dosage is not generally increased further.
An IL-17 antagonist, e.g., 1L-17 binding molecule (e.g., IL-17 antibody or
antigen
binding fragment thereof, e.g., secukinumab) or IL-17 receptor binding
molecule (e.g., IL-17
antibody or antigen binding fragment thereof) is conveniently administered
parenterally,
intravenously, e.g. into the antecubital or other peripheral vein,
intramuscularly, or
subcutaneously. The duration of intravenous (i.v.) therapy using a
pharmaceutical composition
of the present disclosure will vary, depending on the severity of the disease
being treated and the
condition and personal response of each individual patient. Also contemplated
is subcutaneous
(s.c.) therapy using a pharmaceutical composition of the present disclosure.
The health care
provider will decide on the appropriate duration of i.v. or s.c. therapy and
the timing of
administration of the therapy, using the pharmaceutical composition of the
present disclosure.
Satisfactory results (treatment, prophylaxis, delay of onset of symptoms) are
generally
indicated to be obtained at dosages from about 0.05 mg to about 30 mg per
kilogram body
weight, more usually from about 0.1 mg to about 20 mg per kilogram body
weight. The
frequency of dosing may be in the range from about once per day up to about
once every three
months, e.g., in the range from about once every 2 weeks up to about once
every 12 weeks, e.g.,
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once every four to eight weeks. The dosing frequency will depend on, inter
alia, the phase of the
treatment regimen.
The use of antibodies as the active ingredient of pharmaceuticals is now
widespread,
including the products HERCEPTINTm (trastuzumab), RITUXANTm (rituximab),
SYNAGISTm
(palivizumab), etc. Techniques for purification of antibodies to a
pharmaceutical wade are well
known in the art.Antibodies, e.g., antibodies to IL-17, are typically
formulated either in aqueous
form ready for parenteral administration or as lyophilisates for
reconstitution with a suitable
diluent prior to administration. In some embodiments of the disclosed methods
and uses, the IL..
17 antagonist, e.g., IL-17 antibody, e.g., secukinumab, is formulated as a
lyophilisate. Suitable
lyophilisate formulations can be reconstituted in a small liquid volume (e.g.,
2m1 or less) to allow
subcutaneous administration and can provide solutions with low levels of
antibody aggregation.
The composition will usually be sterile, at least at the time of its
formation. The composition will
usually be non pyrogenic e.g. containing <I EU (endotoxin unit, a standard
measure) per dose,
and preferably <0.1 EU per dose. The composition is preferably gluten free.
Within formulations
disclosed herein, antibodies preferably makes up at least 80% by weight (e.g.
at least 90%, 95%,
97%, 98%, 99% or more) of the total protein in the formulation. The antibody
is thus in purified
form.
Lyophilisates
Techniques for lyophilisation of antibodies are well known in the art, e.g.,
see Rey &
May (2004) Freeze-Drying/Lyophilization Of Pharmaceutical & Biological
Products ISBN
0824748689, W092/15331, US patent application 2008/0286280, W003/041637,
W02008/116103, W02008/029908, W02007/074880, W003/009817, and W098/022136. For
example, antibody products SYNAGISTm, REMICADETm, RAPTIVATm, SIMULECTTm,
XOLAIRTm and HERCEPTINTm are supplied as lyophilisates. These antibodies are
reconstituted
to various final concentrations, e.g. SIMULECTTm, is reconstituted to a
concentration of 4 mg/ml
antibody, REMICADETm is reconstituted to a concentration of 10 mg/ml, I
IERCEPTINTm to 21
mg/ml, SYNAGISTM and RAPTIVATm to 100 mg/ml, and XOLAIRTm to 125 mg/ml.
Lyophilisates of the disclosure can be reconstituted to give aqueous
compositions with an
anti-IL-17 antibody concentration of at least about 15 mg/mi. The antibody
concentration can be
much higher than about 15 mg/ml, e.g., > about 15 mg/ml, > about 20 mg/ml, >
about 25 mg/ml,
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> about 50 mg/ml, > about 75 mg/ml, > about 100 mg/ml, > about 125 mg/ml, >
about 150
mg/ml, > about 300 mg/ml or higher.
The lyophilisate may include, in addition to the anti-IL-17 antibody, further
components
such as one or more of the following: (i) a sugar; (ii) a buffering agent;
(iii) a surfactant; and (iv)
a stabilizing agent. Inclusion of each of such additional components (i), (ii)
and (iii) is typical,
and can give compositions with low aggregation of the anti-IL-17 antibody.
Inclusion of
component (iv) is advantageous because it has been shown to further reduce
aggregation after
storage.
When present, components (i) to (iv) will be at a pre-lyophilisation
concentration
sufficient to maintain the anti-1L-17 antibody in a form which is active and
soluble after storage
(under normal conditions) and reconstitution. The components will also be
present after
reconstitution.
Suitable sugars for use with the invention include, but are not limited to,
monosaccharides, disaccharides and trisaccharides. For example, the sugar may
be sucrose,
trehalose, raffinose, maltose, sorbitol or mannitol. The sugar may be a sugar
alcohol or an amino
sugar. Sucrose and trehalose (e.g., at a concentration of about 175 mM to
about 300 mM, e.g.,
about 175 mM, about 180 mM, about 185 mM, about 190 mM, about 195 mM, about
200 mM,
about 225 mM, about 250 mM, about 275 mM, about 300 mM) are particularly
useful.
Suitable buffering agents for use with the invention include, but are not
limited to, a
histidine buffer, a citrate buffer, a phosphate buffer, a succinate buffer, an
acetate buffer, or a
Tris buffer. A histidinc buffer (e.g., at a concentration of about 5 mM to
about 50 mM, e.g.,
about 5 mM, about 10 mM, about 15 mM, about 20 mM, about 25 mM, about 30 mM,
about 55
mM, about 40 mM, about 45 mM, about 50 mM) is particularly useful.
Suitable surfactants for use with the invention include, but are not limited
to, non ionic
swfactants, ionic surfactants and zwitterionic surfactants. Typical
surfactants for use with the
invention include, but are not limited to, sorbitan fatty acid esters (e.g.,
sorbitan monocaprylate,
sorbitan monolaurate, sorbitan monopalmitate), sorbitan trioleate, glycerine
fatty acid esters (e.g.,
glycerine monocaprylate, glycerine monomyristate, glycerine monostearate),
polyglycerine fatty
acid esters (e.g., decaglyceryl monostearate, decaglyceryl distearate,
decaglyceryl
monolinoleate), polyoxyethylene sorbitan fatty acid esters (e.g.,
polyoxyethylene sorbitan
monolaurate, polyoxyethylene sorbitan monooleate, polyoxyethylene sorbitan
monostearate,
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polyoxyethylene sorbitan monopalmitate, polyoxyethylene sorbitan trioleate,
polyoxyethylene
sorbitan tristearate), polyoxyethylene sorbitol fatty acid esters (e.g.,
polyoxyethylene sorbitol
tetrastearate, polyoxyethylene sorbitol tetraoleate), polyoxyethylene
glycerine fatty acid esters
(e.g., polyoxyethylene glyceryl monostearate), polyethylene glycol fatty acid
esters (e.g.,
polyethylene glycol disteamte), polyoxyethylene alkyl ethers (e.g.,
polyoxyethylene 'amyl ether),
polyoxyethylene polyoxypropylene alkyl ethers (e.g., polyoxyethylene
polyoxypropylene glycol,
polyoxyethylene polyoxypropylene propyl ether, polyoxyethylene
polyoxypropylene cetyl ether),
polyoxyethylene alkylphenyi ethers (e.g., polyoxyethylene nonylphenyl ether),
polyoxyethylene
hydrogenated castor oils (e.g. polyoxyethylene castor oil, polyoxyethylene
hydrogenated castor
oil), polyoxyethylene beeswax derivatives (e.g., polyoxyethylene sorbitol
beeswax),
polyoxyethylene lanolin derivatives (e.g., polyoxyethylene lanolin), and
polyoxyethylene fatty
acid amides (e.g., polyoxyethylene stearic acid amide); C10-C18 alkyl sulfates
(e.g., sodium
cetyl sulfate, sodium lauryl sulfate, sodium leyl sulfate), polyoxyethylene
C10-C18 alkyl ether
sulfate with an average of 2 to 4 moles of ethylene oxide units added (e.g.,
sodium
polyoxyethylene lauryl sulfate), and Cl-C18 alkyl sulfosuccinate ester salts
(e.g., sodium lauryl
sulfosuccinate ester); and natural surfactants such as lecithin,
glycerophospholipid,
sphingophospholipids (e.g., sphingomyelin), and sucrose esters of C12-C18
fatty acids. A
composition may include one or more of these surfactants. Preferred
surfactants are
polyoxyethylene sorbitan fatty acid esters e.g. polysorbate 20, 40, 60 or 80.
Polysorbate 80
(Tween 80) (e.g., at a concentration of about 0.01% - about 0.1%, e.g., about
0.02%, about
0.04%, about 0.06%, about 0.08%, about 0.1%) is particularly useful.
A lyophilisate may include active ingredients in addition to the antibody. For
instance,
further pharmacological agents may be included, such as chemotherapeutic
compounds. For
instance, methotrexate may be included, and it is known to include
methotrexate sodium in
lyophilisates.
The pH of an aqueous antibody formulation prior to lyophilisation may be in
the range
4.0-8.0, which a pH in the range about 5.5 ¨ about 7.4 being typical, e.g.,
about 5.5, about 5.6,
about 5.7, about 5.8, about 5.9, about 6, about 6.2, about 6.4, about 6.6,
about 6.7, about 6.8,
about 6.9, about 7.0, about 7.1, about 7.2, about 7.3, about 7.4.
Disclosed are antibody lyophilisates comprising about 25 mg, 50 mg, 75 mg, 150
mg, or
300 mg of an anti-1L-17 antibody ¨ preferably 75mg - 150 mg (e.g., 75 mg or
150 mg) of an
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anti-IL-17 antibody. Disclosed are also lyophilisates comprising: an IL-17
antibody, e.g.,
secukinumab; a sugar; a buffering agent; and a surfactant. The composition may
also include a
stabilizing agent.
Disclosed are also processes for preparing a lyophilisate, comprising steps
of: (i)
preparing an aqueous solution comprising an IL-17 antibody, e.g., secukinumab,
a sugar, a
buffering agent, a surfactant, and optionally a stabilizing agent; and (ii)
lyophilising the aqueous
solution.
Reconstituates
Before a lyophilisate can be administered to a patient it should be
reconstituted with a
liquid reconstituent (e.g., an aqueous liquid) to provide a liquid composition
(hereinafter a
"reconstituate").
Lyophilisates may be reconstituted with various volumes (e.g., 0.25 ml, 0.5
ml. 1.0 ml,
1.5 ml, etc.) of a reconstituent (e.g., an aqueous reconstituent, e.g.,
water). This step permits
antibody and other components in the lyophilisate to re-dissolve to give a
solution which is
suitable for injection to a patient. The volume of aqueous material used for
reconstitution
dictates the concentration of antibody in a resulting pharmaceutical
composition, and may also
determine the route of administration. Reconstitution with a smaller volume of
reconstituent
than the pre-lyophilisation volume provides a composition which is more
concentrated than
before lyophilisation. As mentioned above, lyophilisates of the invention can
be reconstituted to
give aqueous compositions with an anti-IL-17 antibody concentration of at
least about 75 mg/m1
(or higher), and the volume of reconstituent will be selected accordingly.
Disclosed herein are reconstituates comprising an anti-IL-17 antibody, wherein
the
reconstituate has an antibody concentration of at least about 25 mg/ml, 50
mg/ml, 75 mg/ml, 150
mg/ml, or 300 mg/ml ¨ preferably 75 mg/ml - 150 mg/ml (e.g., 75 mg/ml or 150
mg/ml). Ideally
the volume of the reconstituate is small, e.g., 0.25-2.0 ml, in order to
facilitate subcutaneous
administration of the IL-17 antagonist.
Typical reconstituents for lyophilised antibodies include sterile water or
buffer,
optionally containing a preservative. If the lyophilisate includes a buffering
agent, then the
reconstituent may include further buffering agent (which may be the same as or
different from
the lyophilisate's buffering agent) or it may instead include no buffering
agent (e.g. WFI,
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physiological saline). A reconstituate may include pharmacological agents,
such as
chemotherapeutic compounds, facilitating co delivery together with the
antibody.
When present, components (i) to (iv) mentioned above will be at a
concentration
sufficient to maintain the anti-1L-17 antibody in active soluble form, after
reconstitution, under
normal storage conditions while retaining pharmaceutical acceptability at the
point of use.
In addition to antibody and water, reconstituates may include further
components,
derived from the lyophilisate and/or the reconstituent. Such components
include, but are not
limited to, buffers, salts, stabilizing agents, glycerol, alcohols,
preservatives, surfactants, etc. A
thorough discussion of such pharmaceutical ingredients is available in Gennaro
(2000)
Remington: The Science and Practice of Pharmacy. 20th edition, ISBN:
0683306472.
Disclosed are reconstituate pharmaceutical compositions comprising: an IL-17
antibody,
e.g., secukinumab; a sugar; a buffering agent; and a surfactant. The
composition may also
include a stabilizing agent. Disclosed are also processes for preparing a
reconstituate,
comprising mixing a lyophilisate with an aqueous reconstituent, wherein the
lyophilisate
comprises an IL-17 antibody, e.g., secukinumab, a sugar, a buffering agent, a
surfactant, and
optionally a stabilizing agent.
Disclosed herein are methods of treating rheumatoid arthritis (RA), comprising
administering a therapeutically effective amount of an IL-17 antagonist to a
high risk RA patient.
Disclosed herein are also methods of treating rheumatoid arthritis (RA),
comprising: a)
selecting a patient for treatment on the basis of the patient being a high
risk RA patient; and b)
administering a therapeutically effective amount of an 1L-17 antagonist to the
patient.
Disclosed herein are methods of treating rheumatoid arthritis (RA),
comprising: a)
assaying a sample from a patient for: i. rheumatoid factor (RE), anti-
citrullinated protein
antibody (ACPA), or RF and ACPA; and ii. C-reactive protein (CRP), an
erythrocyte
sedimentation rate (ESR), or both CRP and an ESR; and b) thereafter,
administering the patient
an IL-17 antagonist to the patient if the patient is RF+, ACPA +, or RF+ and
ACPA + and the
patient has a high level of CRP, a high ESR, or a high level of CRP and a high
ESR.
Disclosed herein are methods of treating rheumatoid arthritis (RA), comprising
administering a therapeutically effective amount of an IL-17 antagonist to a
patient, provided
that the patient is selected for treatment on the basis of: a) being RF+,
ACPA+, or both RF+ and
ACPA +; and b) having a high level of CRP, a high ESR, or both a high level of
CRP and a high
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ESR. In some embodiments, the step of administering comprises: a)
administering the IL-17
antagonist to the patient during an induction regimen; and b) thereafter
administering the 1L-17
antagonist to the patient during a maintenance regimen.
Disclosed herein are methods of treating rheumatoid arthritis (RA),
comprising: a)
administering a high risk RA patient three doses of about 10 mg/kg of an IL-17
antagonist, each
of the three doses being delivered every other weelc; and b) thereafter
administering about 75 mg
- about 150 mg of the 1L-17 antagonist to the patient every month, beginning
one month from
delivery of the third intravenous dose.
Disclosed herein are therapeutic regimens for treating rheumatoid arthritis
(RA),
comprising: a) selecting a patient having RA based on the following criteria;
i. the patient is RF+,
ACPA+, or both RF+ and ACPA+; and ii. the patient has a high level of CRP, a
high ESR, or
both a high level of CRP and a high ESR; and b) administering the patient
three doses of about
mg/kg of an IL-17 antagonist, the first dose being delivered during week zero,
the second
dose being delivered during week two, and the third dose being delivered
during week four; and
c) thereafter administering the patient about 75 mg - about 150 mg of the IL-
17 antagonist twice
a month, monthly, every two months or every three months, beginning during
week eight.
Disclosed herein are IL-17 antagonists for use in treating rheumatoid
arthritis (RA),
characterized in that the IL-17 antagonist is to be administered to a high
risk RA patient.
Disclosed herein are IL-17 antagonists for use in treating rheumatoid
arthritis (RA),
characterized in that the IL-17 antagonist is to be administered to a patient
selected for treatment
on the basis of the patient being a high risk RA patient.
Disclosed herein are IL-17 antagonists for use in treating a high risk RA
patient. In some
embodiments, the high risk RA patient: a) is seropositive for rheumatoid
factor (RF+), anti-
citrullinated protein antibody (ACPA+), or both RF+ and ACPA+; and b) has a
high level of C-
reactive protein (CRP), a high erythrocyte sedimentation rate (ESR), or both a
high level of CRP
and a high ESR. In some embodiments, a high level of CRP is > 10 mg/L, as
measured by
hsCRP. In some embodiments, a high ESR is > 28 mm/h.
Disclosed herein are IL-17 antagonists for use in treating rheumatoid
arthritis (RA),
characterized in that the IL-17 antagonist is to be administered to a patient,
provided that the
patient is selected for treatment on the basis of: a) being RF+, ACPA+, or
both RF+ and ACPA
+; and b) having a high level of CRP, a high ESR, or both a high level of CRP
and a high ESR.
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Disclosed herein are IL-17 antagonists for use in treating rheumatoid
arthritis (RA),
characterized in that the 1L-17 antagonist is to be: a) administered to a high
risk RA patient as
three doses of about 10 mg/kg, each of the three doses being delivered every
other week; and b)
thereafter administered to the patient as a dose of about 75 mg - about 150 mg
every month,
beginning one month from delivery of the third intravenous dose.
Disclosed herein are 1L-17 antagonists for use in treating rheumatoid
arthritis (RA),
characterized in that: a) a sample from a patient is assayed for: i.
rheumatoid factor (RF), anti-
citrullinated protein antibody (ACPA), or RF and ACPA; and ii.C-reactive
protein (CRP), an
erythrocyte sedimentation rate (ESR), or both CRP and an ESR; and b) the IL-17
antagonist is
administered to the patient if the patient is RF+, ACPA +, or RF+ and ACPA +
and the patient
has a high level of CRP, a high ESR, or a high level of CRP and a high ESR.
Disclosed herein are uses of an 1L-17 antagonist for the manufacture of a
medicament for
treating RA, characterized in that the IL-17 antagonist is to be administered
to high risk RA
patient.
Disclosed herein are uses of an IL-17 antagonist for the manufacture of a
medicament for
treating RA, characterized in that the IL-17 antagonist is to be administered
to high risk RA
patient during an induction regimen followed by a maintenance regimen.
Disclosed herein are pharmaceutical composition for treating RA, comprising as
an active
ingredient an IL-17 antagonist, wherein the IL-17 antagonist is to be
administered to a high risk
RA patient.
Disclosed herein are pharmaceutical composition for treating RA, comprising as
an active
ingredient an IL-17 antagonist, wherein the IL-17 antagonist is to be
administered to a high risk
RA patient during an induction regimen followed by a maintenance regimen.
Disclosed herein are therapeutic regimens for treating RA, comprising: a)
selecting a high
risk RA patient; b) administering about 10 mg/kg of an IL-17 antagonist to the
patient during
weeks 0, 2 and 4; and c) thereafter administering about 75 mg - about 150 mg
of the 1L-17
antagonist to the patient monthly, beginning week 8.
Disclosed herein are methods of treating a RA patient or a high risk RA
patient,
comprising: a) administering an IL-17 binding molecule to a patient in need
thereof during an
induction regimen that provides a mean maximum plasma concentration (Cm.) of
the IL-17
binding molecule of about 360 pg/m1; and b) thereafter administering the IL-17
binding
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molecule to the patient during a maintenance regimen that provides: i) an
average steady-state
trough level of the IL-17 binding molecule between about 8 g/m1- about 30
g/m1; and/or ii) a
mean AUC tau at steady state of about 331 mg*day/L - about 1323 mg*day/L.
Disclosed herein are IL-17 binding molecules for use in treating a RA patient
or a high
risk RA patient, characterized in that the IL-17 binding molecule: a) is to be
administered to the
patient during an induction regimen that provides a mean maximum plasma
concentration (Cõ)
of the 1L-17 binding molecule of about 360 g/m1; and b) thereafter, is to be
administered to the
patient during a maintenance regimen that provides: i) an average steady-state
trough level of the
1L-17 binding molecule between about 8 g/m1- about 30 g/m1; and/or ii) a
mean AUC tau at
steady state of about 331 mg*day/L - about 1323 mg*day/L.
Disclosed herein are methods of treating a high risk RA patient, comprising:
a)
administering an IL-17 binding molecule to a patient in need thereof during an
induction regimen
that provides a mean maximum plasma concentration (C.õ) of the IL-17 binding
molecule of
about 401 g/ml; and b) thereafter administering the 1L-17 binding molecule to
the patient
during a maintenance regimen that provides: i) an average steady-state trough
level of the IL-17
binding molecule of about 9.4 g/m1 - about 31 ug/m1; and/or ii) a mean AUC
tau at steady state
of about 314 mg*day/L - about 1256 mg*day/L.
Disclosed herein are IL-17 binding molecule for use in treating psoriasis,
characterized in
that the IL-17 binding molecule: a) is to be administered to the patient
during an induction
regimen that provides a mean maximum plasma concentration (Cm.) of the IL-17
binding
molecule of about 401 g/m1; and b) thereafter, is to be administered to the
patient during a
maintenance regimen that provides: i) an average steady-state trough level of
the IL-17 binding
molecule of about 9.4 pg/m1 - about 31 g/m1; and/or ii) a mean AUC tau at
steady state of about
314 mg*day/L - about 1256 mg*day/L.
In some embodiments, the maintenance regimen provides an average steady-state
trough
level of the IL-17 binding molecule of about 9.4 pg/ml ¨ about 17.3 jig/ml. In
some
embodiments, the maintenance provides an average steady-state trough level of
the IL-17
binding molecule of about 9.4 g/m1 or about 17.3 g/ml. In some embodiments,
the induction
regimen comprises intravenous administration of the IL-17 binding molecule
every other week.
In some embodiments, the maintenance regimen comprises monthly subcutaneous
administration
of the 1L-17 binding molecule.
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Disclosed herein are IL-17 antagonists in preparation of a medicament for the
treatment
of RA, provided that the patient is selected for the treatment on the basis
of: a) being RF+,
ACPA+, or both RF+ and ACPA +; and b) having a high level of CRP, a high ESR,
or both a
high level of CRP and a high ESR.
Disclosed herein are IL-17 antagonists for the manufacture of a medicament for
the
treatment of RA in a patient characterized as: a) being RF+, ACPA+, or both
RF+ and ACPA +;
and b) having a high level of CRP, a high ESR, or both a high level of CRP and
a high ESR,
wherein the medicament is formulated to comprise containers, each container
having a sufficient
amount of the IL-17 antagonist to allow delivery of at least about 75 mg ¨
about 150 mg IL-17
antagonist per unit dose.
Disclosed herein are 1L-17 antagonists for the manufacture of a medicament for
the
treatment of RA in a patient characterized as: a) being RF+, ACPA+, or both
RF+ and ACPA +;
and b) having a high level of CRP, a high ESR, or both a high level of CRP and
a high ESR,
wherein the medicament is formulated to comprise containers, each container
having a sufficient
amount of the IL-17 antagonist to allow delivery of at least about 10 mg/kg
per unit dose.
Disclosed herein are IL-17 antagonists for the manufacture of a medicament for
the
treatment of RA in a patient characterized as: a) being RF+, ACPA+, or both
RF+ and ACPA +;
and b) having a high level of CRP, a high ESR, or both a high level of CRP and
a high ESR,
wherein the medicament is formulated at a dosage to allow intravenous delivery
of about 10
mg/kg per unit dose.
Disclosed herein are IL-17 antagonists for the manufacture of a medicament for
the
treatment of RA in a patient characterized as: a) being RF+, ACPA+, or both
RF+ and ACPA +;
and b) having a high level of CRP, a high ESR, or both a high level of CRP and
a high ESR,
wherein the medicament is formulated at a dosage to allow subcutaneous
delivery of about 75
mg ¨ about 150 mg IL-17 antagonist per unit dose.
Disclosed herein are in vitro test methods for selecting a patient for
treatment of RA,
comprising determining if: i. the patient is RF+, ACPA+, or both RE+ and
ACPA+; and ii. the
patient has a high level of CRP, a high ESR, or both a high level of CRP and a
high ESR. In
some embodiments of the disclosed in vitro test methods, the patient has an
improved therapeutic
response to the following regimen: a) administering the patient three doses of
about 10 mg/kg of
an IL-17 antagonist, the first dose being delivered during week zero, the
second dose being
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delivered during week two, and the third dose being delivered during week
four; and a)
thereafter administering the patient about 75 mg - about 150 mg of the IL-17
antagonist twice a
month, monthly, every two months or every three months, beginning during week
eight.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the high risk RA patient: a) is seropositive for rheumatoid
factor (RF+), anti-
citrullinated protein antibody (ACPA+), or both RF+ and ACPA+; and b) has a
high level of C-
reactive protein (CRP), a high erythrocyte sedimentation rate (ESR), or both a
high level of CRP
and a high ESR. In some embodiments, the high level of CRP is > 10 mg/L, as
measured by
hsCRP. In some embodiments, the high ESR is > 28 min/h.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the step of administering comprises intravenously administering
three doses of
about 10 mg/kg of the IL-17 antagonist to said patient, each of said doses
being administered
every other week. In some embodiments, the step of administering comprises
subcutaneously
administering doses of about 75 mg ¨ about 150 mg of the IL-17 antagonist to
said patient, each
of said doses being administered monthly. In some embodiments, the step of
administering
comprises: a) administering the IL-17 antagonist to the high risk RA patient
during an induction
regimen; and b) thereafter administering the IL-17 antagonist to the patient
during a maintenance
regimen.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the induction regimen comprises administering the patient three
doses of about 10
mg/kg of the IL-17 antagonist. In some embodiments, the first dose of about 10
mg/kg is
delivered during week zero, the second dose of about 10 mg/kg is delivered
during week two,
and the third dose of about 10 mg/kg is delivered during week four.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the maintenance regimen comprises administering the patient
about 75 mg - about
300 mg of the IL-17 antagonist. In some embodiments, the maintenance regimen
comprises
subcutaneously administering the patient about 75 mg - about 300 mg of the IL-
17 antagonist
twice a month, monthly, every two months or every three months. In some
embodiments, the
maintenance regimen comprises subcutaneously administering the patient about
75 mg - about
150 mg of the IL-17 antagonist twice a month, monthly, every two months or
every three months,
beginning during week eight. In some embodiments, the maintenance regimen
comprises
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subcutaneously administering the patient about 75 mg or about 150 mg of the IL-
17 antagonist
monthly, beginning during week eight.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, prior to administering the 1L-17 antagonist the patient had a
previous RA
treatment comprising administering at least one anti-rheumatic agent selected
from the group
consisting of an immunosuppressive agent, a disease-modifying anti-rheumatic
drug (DMARD),
a pain-control drug, a steroid, a non-steroidal anti-inflammatory drug
(NSAID), a cytokine
antagonist, a bone anabolic, a bone anti-resorptive, and combinations thereof.
In some
embodiments, the prior to administering the IL-17 antagonist the patient had
an inadequate
response to, had failure to or was intolerant to treatment with a DMARD, a TNF
alpha antagonist,
or methotrexate.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the patient is additionally administered a therapeutically
effective amount of at
least one anti-rheumatic agent selected from the group consisting of an
immunosuppressive agent,
a DMARD, a pain-control drug, a steroid, a NSAID, a cytokine antagonist, a
bone anabolic, a
bone anti-resoiptive, and combinations thereof.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the IL-17 antagonist is administered as three doses of about 10
mg/kg, each of said
doses being administered every other week. In some embodiments, the IL-17
antagonist is
administered as doses of about 75 mg ¨ about 300 mg, each of said doses being
administered
monthly.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the IL-17 antagonist is to be administered to the patient during
an induction
regimen and thereafter administered to the patient during a maintenance
regimen. In some
embodiments, the induction regimen comprises administering the patient three
doses of about 10
mg/kg of the IL-17 antagonist. In some embodiments, the first dose of about 10
mg/kg is
delivered during week zero, the second dose of about 10 mg/kg is delivered
during week two,
and the third dose of about 10 mg/kg is delivered during week four.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the maintenance regimen comprises administering the patient
about 75 mg - about
300 mg of the 1L-17 antagonist. In some embodiments, the maintenance regimen
comprises
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subcutaneously administering the patient about 75 mg - about 300 mg of the IL-
17 antagonist
twice a month, monthly, every two months or every three months. In some
embodiments, the
maintenance regimen comprises subcutaneously administering the patient about
75 mg -about
150 mg of the IL-17 antagonist twice a month, monthly, every two months or
every three months,
beginning during week eight. In some embodiments, the maintenance regimen
comprises
subcutaneously administering the patient about 75 mg or about 150 mg of the IL-
17 antagonist
monthly, beginning during week eight.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the high risk RA patient: a) is seropositive for rheumatoid
factor (RF+), anti-
citrullinated protein antibody (ACPA+), or both RF+ and ACPA+; and b) has a
high level of C-
reactive protein (CRP), a high erythrocyte sedimentation rate (ESR), or both a
high level of CRP
and a high ESR.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the induction regimen maintains the trough level of the 1L-17
binding molecule
above 80 g/m1 for a 10 week period. In some embodiments, the maintenance
regimen provides
an average steady-state trough level of the IL-17 binding molecule of about 8
g/m1 - about 17
g/ml. In some embodiments, the maintenance provides an average steady-state
trough level of
the 1L-17 binding molecule of about 8 g/m1 or about 17 g/ml.
In some embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions,
and regimens, the 1L-17 antagonist is an IL-17 binding molecule or an IL-17
receptor binding
molecule. In some embodiments, the IL-17 binding molecule or an 1L-17 receptor
binding
molecule is an IL-17 binding molecule (e.g., IL-17 antibody) selected from the
group consisting
of: a) secukinumab; b) an IL-17 antibody that binds to an epitope of IL-17
comprising Leu74,
Tyr85, His86, Met87, Asn88, Va1124, Thr125, Pro126, 11e127, Val 128, His129;
c) an IL-17
antibody that binds to an epitope of IL-17 comprising Tyr43, Tyr44, Arg46,
Ala79, Asp80; d) an
IL-17 antibody that binds to an epitope of an IL-17 homodimer having two
mature 1L-17 protein
chains, said epitope comprising Leu74, Tyr85, His86, Met87, Asn88, Va1124,
Thrl 25, Pro126,
11e127, Va1128, His129 on one chain and Tyr43, Tyr44, Arg46, Ala79, Asp80 on
the other chain;
e) an 1L-17 antibody that binds to an epitope of an IL-17 homodimer having two
mature IL-17
protein chains, said epitope comprising Leu74, Tyr85, His86, Met87, Asn88,
Va1124, Thr125,
Pro126, 11e127, Va1128, His129 on one chain and Tyr43, Tyr44, Arg46, A1a79,
Asp80 on the
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other chain, wherein the IL-17 binding molecule has a 1(D of about 100-200 pM,
and wherein the
IL-17 binding molecule has an in vivo half-life of about 4 weeks; and t) an 1L-
17 antibody that
comprises an antibody selected from the group consisting of: i) an
immunoglobulin heavy chain
variable domain (VH) comprising the amino acid sequence set forth as SEQ ID
NO:8; ii) an
immunoglobulin light chain variable domain (VL) comprising the amino acid
sequence set forth
as SEQ ID NO:10; iii) an immunoglobulin VH domain comprising the amino acid
sequence set
forth as SEQ ID NO:8 and an immunoglobulin V1, domain comprising the amino
acid sequence
set forth as SEQ ID NO:10; iv) an immunoglobulin VH domain comprising the
hypervariable
regions set forth as SEQ ID NO:1, SEQ ID NO:2, and SEQ ID NO:3; v) an
immunoglobulin VL
domain comprising the hypervariable regions set forth as SEQ ID NO:4, SEQ ID
NO:5 and SEQ
ID NO:6; vi) an immunoglobulin VH domain comprising the hypervariable regions
set forth as
SEQ ID NO:11, SEQ ID NO:12 and SEQ ID NO:13; vii) an immunoglobulin VH domain
comprising the hypervariable regions set forth as SEQ ID NO:1, SEQ ID NO:2,
and SEQ ID
NO:3 and an immunoglobulin VL domain comprising the hypervariable regions set
forth as SEQ
ID NO:4, SEQ ID NO:5 and SEQ ID NO:6; and viii) an immunoglobulin VH domain
comprising
the hypervariable regions set forth as SEQ ID NO: II, SEQ ID NO:12 and SEQ ID
NO:13 and an
immunoglobulin VL domain comprising the hypervariable regions set forth as SEQ
ID NO:4,
SEQ ID NO:5 and SEQ ID NO:6.
In preferred embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions, and regimens, the IL-17 binding molecule is a human antibody. In
even more
preferred embodiments of the disclosed methods, kits, uses, pharmaceutical
compositions, and
regimens, the IL-17 binding molecule is secukinumab.
As used herein, the phrase 'container having a sufficient amount of the IL-17
antagonist to
allow delivery of [a designated closer is used to mean that a given container
(e.g., vial, pen,
syringe) has disposed therein a volume of an IL-17 antagonist (e.g., as part
of a pharmaceutical
composition) that can be used to provide a desired dose. As an example, if a
desired dose is 75
mg, then a clinician may use 2 ml from a container that contains an IL-17
antibody formulation
with a concentration of 37.5 mg/ml, 1 ml from a container that contains an IL-
17 antibody
formulation with a concentration of 75 mg/ml, 0.5 ml from a container contains
an IL-17
antibody formulation with a concentration of 150 mg/ml, etc. In each such
case, these containers
have a sufficient amount of the IL-17 antagonist to allow delivery of the
desired 75 mg dose.
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As used herein, the phrase "formulated at a dosage to allow [route of
administration]
delivery of [a designated closer is used to mean that a given pharmaceutical
composition can be
used to provide a desired dose of an IL-17 antagonist, e.g., an IL-17
antibody, e.g., secukinumab,
via a designated route of administration (e.g., s.c. or i.v.). As an example,
if a desired
subcutaneous dose is 75 mg, then a clinician may use 2 ml of an 1L-17 antibody
formulation
having a concentration of 37.5 mg/ml, 1 ml of an IL-17 antibody formulation
having a
concentration of 75 mg/ml, 0.5 ml of an IL-17 antibody formulation having a
concentration of
150 mg/ml, etc. In each such case, these IL-17 antibody formulations are at a
concentration high
enough to allow subcutaneous delivery of the IL-17 antibody. Subcutaneous
delivery typically
requires delivery of volumes of less than about 2 ml, preferably a volume of
about 1ml or less.
In some embodiments, the induction regimen comprises administration of I, 2,
3, 4, 5, 6,
or more i.v. doses of the IL-17 antagonist (e.g., secukinumab), e.g.,
secukinumab, preferably one,
two or three (most preferably three) doses of secukinumab delivered every
week, every other
week, every three weeks or every four weeks (monthly). In some embodiments,
the induction
regimen comprises administration of 10 mg/kg i.v. of the IL-17 antagonist
(e.g., secukinumab),
e.g., secukinumab.
In some embodiments, induction doses of the IL-17 antagonist (e.g.,
secukinumab) may be
administered as three i.v. infusions (e.g., 10 mg/kg) every other week, i.e.,
during week zero (e.g.,
day 1), during week two (e.g., about day 15), and during week four (e.g.,
about day 29). In some
embodiments, induction doses may be administered as three i.v. infusions
(e.g., 10 mg/kg) every
three weeks, i.e., during week zero (e.g., about day 1), during week three
(e.g., about day 22),
and during week six (e.g., about day 43). In some embodiments, induction doses
may be
administered as three i.v. infusions (e.g., 10 mg/kg) every four weeks
(monthly), i.e., during
week zero (e.g., about day I), during week four (e.g., about day 29), and
during week eight (e.g.,
about day 57).
In some embodiments, induction doses of the I1-17 antagonist (e.g.,
secukinumab) may be
administered as two i.v. infusions (e.g., 10 mg/kg) every other week, i.e.,
during week zero
(about day 1), and during week two (e.g., about day 15). In some embodiments,
induction doses
may be administered as two i.v. infusions (e.g., 10 mg/kg) every three weeks,
i.e., during week
zero (e.g., about day 1) and during week three (e.g., about day 22). In some
embodiments,
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induction doses may be administered as two i.v. infusions (e.g., 10 mg/kg)
every four weeks
(monthly), i.e., during week zero (e.g., about day 1) and during week four
(e.g., about day 29).
In some embodiments, induction doses of the IL-17 antagonist (e.g.,
secukinumab) may be
administered as a single high dose infusion, e.g., 30 mg/kg.
In further embodiments, the induction regimen comprises administration of 1.2,
3, 4, 5, 6,
or more daily or weekly s.c. doses of the IL-17 antagonist (e.g.,
secukinumab), preferably three
to five (e.g., four) weekly doses of secukinumab. In some embodiments, the
induction dosage
that may be administered daily or weekly is about 75 mg ¨ about 300 mg of the
IL-17 antagonist
(e.g., secukinumab) delivered s.c. (e.g, about 75 mg - about 150 mg, e.g.,
about 75 mg or about
150 mg).
In some embodiments, the induction regimen comprises administration of daily
s.c. doses
of the IL-17 antagonist (e.g., secukinumab), e.g., daily s.c. doses of
secukinumab (e.g., about 75
mg ¨ about 300 mg, e.g, about 75 mg - about 150 mg, e.g., about 75 mg or about
150 mg),
delivered on days 1-7. In some embodiments, the induction regimen comprises
administration of
weekly s.c. doses of the IL-17 antagonist (e.g., secukinumab), e.g., weekly
s.c. doses of
secukinumab, delivered during week zero, one, two, and three.
In other embodiments, the dose(s) secukinumab administered to a subject may be
higher
and more frequent (i.e., weekly for the first month of treatment) during an
induction regimen,
and then the patient may be maintained at a lower dose.
In some embodiments, the maintenance regimen comprises subcutaneously
administering
the patient about 75 mg or about 150 mg of the IL-17 binding molecule if the
patient weighs less
than 90 kg. In some embodiments, the maintenance regimen comprises
subcutaneously
administering the patient about 150 mg or about 300 mg of the IL-17 binding
molecule if the
patient weighs more than or equal to 90 kg.
For a maintenance regimen, a dose of the IL-17 antagonist (e.g., secukinumab)
may be
provided twice a month (i.e., every two weeks, bimonthly or every other week,
i.e., about every
14 days), every month (i.e, every 4 weeks, i.e., about every 28 days), every
two months (i.e.,
every other month or every 8 weeks, i.e., about every 56 days), or every three
months (i.e., every
12 weeks, i.e., about every 84 days). As used herein, the date of the first
dose of a maintenance
regimen will be measured from the final dose of the induction regimen. Thus,
as an example, if
the final dose of the induction regimen is provided during week four, then a
first dose as part of a
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bimonthly maintenance regimen may be delivered during week six (about day 43),
a first dose as
part of a monthly maintenance regimen may be delivered during week eight
(about day 57), a
first dose as part of an every two month maintenance regimen may be delivered
during week
twelve (about 85 days), a first dose as part of an every three month
maintenance regimen may be
delivered during week sixteen (about 113 days), etc. In some embodiments, the
first dose of the
maintenance regimen is delivered every month (monthly, about every four
weeks), beginning
one month (i.e., about four weeks) from delivery of a final induction (e.g.,
s.c. or i.v. induction)
dose. In some embodiments, the first dose of the maintenance regimen is
delivered every month
(monthly, about every four weeks), beginning one month (i.e., about four
weeks) from delivery
of a third i.v. induction dose.
In some embodiments, the maintenance regimen comprises administration of the
1L-17
antagonist (e.g., secukinumab), e.g., about 75 mg ¨ about 300 mg (e.g, about
75 mg - about 150
mg, e.g., about 75 mg or about 150 mg) delivered bimonthly, monthly, every two
months Of
every three months. In some embodiments, the 1L-17 antagonist (e.g.,
secukinumab) is delivered
s.c. during the maintenance regimen. In a preferred embodiment, a maintenance
dose is
delivered monthly. In some embodiments, a first maintenance dose is delivered
during week six
(e.g., about day 43), seven (e.g., about day 50), eight (e.g., about day 57),
nine (e.g., about day
64), ten (e.g., about day 71), eleven (e.g., about day 78), twelve (e.g.,
about day 85), or thirteen
(e.g., about day 92) of the treatment regimen, and then monthly (e.g., about
every 4 weeks or
about every 28 days) thereafter. In some embodiments, the maintenance regimen
comprises
subcutaneously administering the patient about 75 mg - about 300 mg (e.g,
about 75 mg - about
150 mg, e.g., about 75 mg or about 150 mg) of the IL-17 antagonist (e.g.,
secukinumab) twice a
month, monthly, every two months or every three months, beginning during week
four, five, six,
seven, eight, nine, ten, eleven, or twelve, preferably during week eight.
Preferred treatment regimens for treating RA patients (e.g., high risk RA
patients) and
patients having other inflammatory arthritis, e.g., spondyloarthropathy,
ankylosing spondylitis
(AS), and psoriatic arthritis (PsA), are provided in Table 5:
i.v, induction regimen (3 x 10 every other week) maintenance regimen (150
or 300 mg1
= first dose = during week 0 = first
monthly dose = during week 8
= second dose = during week 2 = every
month (about 4 weeks) thereafter.
= third dose = during week 4
kjnOistio maw j3,x la every three wvics) maintenance regimen
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= first dose = during week 0 = first
monthly dose = during week 10
= second dose = during week 3 = every
month (about 4 weeks) thereafter
= third dose = during week 6
Iv. induction regimen (3 x 10 every month) maintenance regimen
= first dose = during week 0 = first
monthly dose = during week 12
= second dose = during week 4 = every
month (about 4 weeks) thereafter
= third dose = during week 8
i.v. induction regimen (2 x 10 every other week) maintenance regimen
= first dose = during week 0 = first
monthly dose = during week 6
= second dose = during week 2 = every
month (about 4 weeks) thereafter
i.v. induction regimen (2 x 10 every three week) maintenance regimen
= first dose = during week 0 = first
monthly dose = during week 7
= second dose = during week 3 = every
month (about 4 weeks) thereafter
i.v. induction regimen (2 x 10 every month) maintenance regimen
= first dose = during week 0 = first
monthly dose = during week 8
= second dose = during week = every month
(about 4 weeks) thereafter.
S.C. induction regimen (150 or 300mg weekly for 4 maintenance regimen
doses) = first monthly dose = during week 7
= first weekly dose ¨ during week 0 =
every month (about 4 weeks) thereafter
= second weekly dose = during week 1
= third weekly dose = during week 2
= fourth weekly dose = during week 3
S.C. induction regimen (150 or 300mg daily) maintenance regimen
= dose 1-7 = day 1-7 = first monthly dose
= during week 4 or 5
= every month (about 4 weeks) thereafter
S.C. induction regimen (150 or 300mg weekly for 5 ' maintenance regimen,
doses) = first monthly dose = during week 8
= first weekly dose = during week 0 =
every month (about 4 weeks) thereafter
= second weekly dose = during week 1
= third weekly dose ¨ during week 2
= fourth weekly dose = during week 3
= fifth weekly dose ¨ during week 4
Table 5: Preferred dosing regimens for treating RA patients (e.g., high risk
RA patients) and patients having other
inflammatory arthritis, e.g., spondyloarthropathy, ankylosing spondylitis. and
psoriatic arthritis.
It will be understood that a dose need not be provided at an exact time point,
e.g., a dose
due on day 29 could be provided. e.g., on day 24 to day 34.
In some embodiments, the dosage of the 1L-17 antagonist (e.g., secukinumab)
used in the
disclosed induction and/or maintenance regimens (as the case may be) is based
on the patient's
weight (e.g., whether a patient is under or over 75 kg, 80 kg, 85 kg, 90 kg,
95 kg, 100 kg, 105 kg,
etc. can be used to define a dosage of the IL-)7 antagonist, e.g.,
secukinumab, for delivery to the
patient). In one embodiment, the patient is administered about 75 mg or about
150 mg (e.g.,
delivered s.c.). if the patient weighs less than or equal to about 80 kg. In
one embodiment, the
patient is administered about 75 mg or about 150 mg (e.g., delivered s.c.). if
the patient weighs
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less than or equal to about 90 kg. In one embodiment, the patient is
administered about 75 mg or
about 150 mg (e.g., delivered s.c.) if the patient weighs less than or equal
to about 100 kg. In
another embodiment, the patient is administered about 150 mg or about 300 mg
(e.g., delivered
s.c.) if the patient weighs more than about 80 kg. In another embodiment, the
patient is
administered about 150 mg or about 300 mg (e.g., delivered s.c.) if the
patient weighs more than
about 90 kg. In another embodiment, the patient is administered about 150 mg
or about 300 mg
(e.g., delivered s.c.) if the patient weighs more than about 100 kg.
It will be understood that dose escalation may be required (e.g., during the
induction
and/or maintenance phase) for certain patients, e.g., patients that display
inadequate response to
treatment with the IL-17 antagonist (e.g., secukinumab). Thus, s.c. doses of
the IL-17 antagonist
(e.g., secukinumab) may be greater than about 75 mg to about 300 mg s.c.,
e.g., about 80 mg,
about 100 mg, about 125 mg, about 175 mg, about 200 mg, about 250 mg, about
350 mg, about
400 mg, etc.; similarly, i.v. doses may be greater than about 10 mg/kg, e.g.,
about 11 trig/kg, 12
mg/kg, 15 mg/kg, 20 mg/kg, 25 mg/kg, 30 mg/kg, 35 mg/kg, etc. It will also be
understood that
dose reduction may also be required (e.g., during the induction and/or
maintenance phase) for
certain patients, e.g., patients that display adverse events or an adverse
response to treatment
with the IL-17 antagonist (e.g., secukinumab). Thus, doses of the 1L-17
antagonist (e.g.,
secukinumab) may be less than about 75 mg to about 300 mg s.c., e.g., about 25
mg, about 50
mg, about 80 mg, about 100 mg, about 125 mg, about 175 mg, about 200 mg, 250
mg, etc.;
similarly, i.v. doses may be less than about 10 mg/kg, e.g., about 9 mg/kg, 8
mg/kg, 5 mg/kg, 4
mg/kg, 3 mg/kg, 2 mg/kg, 1 mg/kg, etc.
In some embodiments of the above methods, uses, pharmaceutical compositions,
kits and
treatment regimens, a CRP level of? about 3 mg/L (e.g., 3 mg/L), > about 5
mg/L (e.g., 5 mg/L),
?_about 10 mg/L (e.g., 10 mg/L),2 about 15 mg/L (e.g., 15 mg/L) is considered
a high level of
CRP. In some embodiments, a CRP level of > 200 nmol/L or > 240 nmol/L is
considered a
high CRP level. In a preferred embodiment, a CRP level of greater than or
equal ) to about 10
mg/L (e.g., 10 mg/L), e.g., as measured by a high sensitivity CRP assay, is
considered a high
CRP level. In some embodiments, a high level of CRP is > about 10 mg/L, >
about 20 mg/L or
> about 30 mg,/L.
In some embodiments of the above methods, uses, pharmaceutical compositions,
kits and
treatment regimens, "high ESR" may be determined based on the following rule:
normal
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maximum ESR (mm/h) < (Age (years) + 10 (if female))/2. As a result, a "high
ESR" > (Age
(yews) + 10 (if female))/2. In some embodiments, a "high ESR" may be
determined based on
the following rule: normal maximum ESR (mm/h) < (Age (years) +5 (if
female))/2. As a result,
a "high ESR" > (Age (years) + 5 (if female))/2. In some embodiments, an ESR of
20 mm/h is
a high ESR for females. In some embodiments, an ESR of> 15 mm/h is a high ESR
for males.
In a preferred embodiment, an ESR of greater than or equal ) to 28 mm/h is a
high ESR.
In some embodiments of the above methods, uses, pharmaceutical compositions,
kits and
treatment regimens, a patient is RF+ if the patient's RF value is greater than
20 !Wmi or greater
than 30 IU/ml. In some embodiments, a patient is RF+ if the patient's RF value
is greater than
40 units/ml or greater than 60 units/ml, as measured by a nephelometry test.
In some
embodiments, a patient is RF+ if the patient's RF titer is greater than 1:20
or greater than 1:80, as
measured by a dilution bast. In a preferred embodiment, a patient is RF+ if
the patient's RF value
is greater than or equal (>) to 12 kU/L (kiloUnits/Liter), e.g., as measured
by nephelometry.
In some embodiments of the above methods, uses, pharmaceutical compositions,
kits and
treatment regimens, a patient is ACPA+ if the patient's ACPA value is greater
than 1 U/ml,
greater than 3 U/ml, or greater than 5 U/ml, e.g., as determined by an anti-
CCP ELISA test. In a
preferred embodiment, a patient is ACPA+ if the patient's ACPA value is
greater than 20
units/ml (20 U).
Disclosed herein are also methods of treating rheumatoid arthritis (RA),
comprising: a)
administering (e.g., subcutaneously administering) a high risk RA patient four
or five doses of
about 75 mg - about 300 mg (e.g, about 75 mg - about 150 mg, e.g., about 75 mg
or about 150
mg) of an IL-17 antagonist, e.g., 1L-17 binding molecule (e.g., IL-l7 antibody
or antigen binding
fragment thereof, e.g., secukinumab) or IL-17 receptor binding molecule (e.g.,
IL-17 antibody or
antigen binding fragment thereof), each of the four or five doses being
delivered weekly; and b)
thereafter administering about 75 mg - about 300 mg (e.g, about 75 mg - about
150 mg, e.g.,
about 75 mg or about 150 mg) of the IL-17 antagonist (e.g., secukinumab) to
the patient twice a
month, every month, every two months or every three months.
Disclosed herein are also therapeutic regimens for treating RA, comprising: a)
selecting a
patient having rheumatoid arthritis based on the following criteria; i.) the
patient is RF+, ACPA+,
or both RF+ and ACPA+; and ii.) the patient has a high level of CRP, a high
ESR, or both a high
level of CRP and a high ESR; and b) administering (e.g., subcutaneously
administering) about 75
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mg - about 300 mg (e.g, about 75 mg - about 150 mg, e.g., about 75 mg or about
150 mg) of an
1L-17 antagonist, e.g., 1L-17 binding molecule (e.g., IL-17 antibody or
antigen binding fragment
thereof, e.g., secukinumab) or 1L-17 receptor binding molecule (e.g., IL-17
antibody or antigen
binding fragment thereof) to the patient weekly for four or five weeks; and c)
thereafter
administering (e.g., subcutaneously administering) about 75 mg - about 300 mg
(e.g, about 75
mg - about 150 mg, e.g., about 75 mg or about 150 mg) of the 1L-17 binding
molecule to the
patient twice a month, every month, every two months or every three months.
Disclosed herein are methods of treating rheumatoid arthritis (RA), comprising
administering a therapeutically effective amount of an IL-17 antagonist, e.g.,
IL-17 binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof, e.g.,
secukinumab) or 1L-17
receptor binding molecule (e.g., 1L-17 antibody or antigen binding fragment
thereof) to a RA
patient displaying elevated baseline CRP levels (e.g., greater than about 10
mg/L, greater than
about 20 mg/L, greater than about 30 mg/L).
Disclosed herein are also therapeutic regimens for treating RA, comprising: a)
selecting a
patient having rheumatoid arthritis based on the following criteria: i.) the
patient has elevated
baseline CRP levels (e.g., greater than about 10 mg/L, greater than about 20
mg/L, greater than
about 30 mg/L); and b) either i) administering (e.g., subcutaneously
administering) about 75 mg
- about 300 mg (e.g, about 75 mg - about 150 mg, e.g., about 75 mg or about
150 mg) of an IL-
17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17 antibody or antigen
binding fragment
thereof, e.g., scculcinumab) or IL-17 receptor binding molecule (e.g., IL-17
antibody or antigen
binding fragment thereof) to the patient weekly for four or five doses or ii)
administering (e.g.,
i.v. administering) about 10 mg/kg of an IL-17 antagonist, e.g., IL-17 binding
molecule (e.g., IL-
17 antibody or antigen binding fragment thereof, e.g., secukinumab) or IL-17
receptor binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof) to the
patient every other
week for three doses; and c) thereafter administering (e.g., subcutaneously
administering) about
75 mg - about 300 mg (e.g, about 75 mg - about 150 mg, e.g., about 75 mg or
about 150 mg) of
the IL-17 antagonist (e.g., secukinumab) to the patient twice a month, every
month, every two
months or every three months, preferably monthly.
Herein are also provided methods of treating an inflammatory arthritis,
comprising an
induction regimen, e.g., administering (e.g., intravenously administering) two
or three induction
doses of about 10 mg/kg of an IL-17 antagonist, e.g., IL-17 binding molecule
(e.g., IL-17
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antibody or antigen binding fragment thereof, e.g., secukinumab) or IL-17
receptor binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof)
(preferably three induction
doses) to a patient having an arthritis, wherein the arthritis's selected from
the group consisting
of rheumatoid arthritis (RA), spondyloarthropathy, ankylosing spondylitis
(AS), and psoriatic
arthritis (PsA). In some embodiments, the first dose is delivered during week
zero, the second
dose is delivered during week two, and the third dose is delivered during week
four. In some
embodiments, the first dose is delivered during week zero, the second dose is
delivered during
week three, and the third dose is delivered during week six. In some
embodiments, the method
further comprises a maintenance regimen, e.g., administering (e.g.,
subcutaneously
administering) about 75 mg - about 300 mg (e.g, about 75 mg - about 150 mg,
e.g., about 75 mg
or about 150 mg) of the IL-17 antagonist (e.g., secukinumab) to the patient,
wherein the IL-17
binding molecule is administered to the patient twice a month, monthly, every
two months or
every three months. In some embodiments the patient is a high risk RA patient,
e.g., seropositive
for rheumatoid factor (RF+), anti-cyclic citrullinated protein antibody
(ACPA+), or both RF+
and ACPA+; and has a high level of C-reactive protein (CRP), a high
erythrocyte sedimentation
rate (ESR), or both a high level of CRP and a high ESR). In some embodiments,
the high level
of CRP is > 10 mg/dL. In some embodiments, the high ESR is > 28 mm/h. In
further
embodiments, the inflammatory arthritis is selected from rheumatoid arthritis
(RA),
spondyloarthropathy, ankylosing spondylitis, and psoriatic arthritis. In some
embodiment, the
patient has RA. In further embodiments, the RA patient is a high risk RA
patient. In further
embodiments, the high risk RA patient: a) is seropositive for rheumatoid
factor (RF+), anti-
citrullinated protein antibody (ACPA+), or both RF+ and ACPA+; and b) has a
high level of C-
reactive protein (CRP), a high erythrocyte sedimentation rate (ESR), or both a
high level of CRP
and a high ESR.
In some embodiments, the IL-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17
antibody or antigen binding fragment thereof, e.g., sccukinumab) or IL-17
receptor binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof) is used in
combination with
methotrexate for the treatment of adult patients with moderately- to severely-
active rheumatoid
arthritis who have had an inadequate response to one or more INF antagonist
therapies. In some
embodiments, the IL-17 antagonist (e.g., secukinumab) is used alone or in
combination with
methotrexate or other disease-modifying anti-rheumatic drugs (DMARDs) to
reduce signs and
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symptoms (e.g., swelling, restricted movement), inducing major clinical
response, inhibit the
progression of structural damage, and improve physical function in adult
patients with
moderately to severely active disease. In some embodiments, the IL-17
antagonist (e.g.,
secukinumab) is used alone or in combination with methotrexate to reduce signs
and symptoms,
induce major clinical response, inhibit the progression of structural damage,
and improve
physical function in patients with moderately to severely active rheumatoid
arthritis (RA). In
some embodiments, the 1L-17 antagonist (e.g., secukinumab) is used in
combination with
methotrexate, for reducing signs and symptoms, inhibiting the progression of
structural damage,
and improving physical function in patients with moderately to severely active
rheumatoid
arthritis. In some embodiments, the IL-17 antagonist (e.g., secukinumab) is
used for the
treatment of adults with moderately to severely active rheumatoid arthritis
(RA). In some
embodiments, the IL-17 antagonist (e.g., secukinumab) is used for treating
moderately to
severely active Rheumatoid Arthritis (RA) in adults, in combination with
methotrexate. In some
embodiments, the IL-17 antagonist (e.g., secukinumab) is used for reduction in
signs and
symptoms and slowing the progression of structural damage in moderately to
severely active
rheumatoid arthritis, in patients who have failed 1 or more disease modifying
antirheumatic
drugs (DMARDs). In some embodiments, the IL-17 antagonist (e.g., secukinumab)
is used as a
monotherapy or concomitantly with disease-modifying antirheumatic drugs
(DMARDs) for
reducing signs and symptoms, inducing major clinical response, inhibiting the
progression of
structural damage, and improving physical function in adult patients with
moderately to severely
active rheumatoid arthritis. In some embodiments, the IL-17 antagonist (e.g.,
secukinumab) is
used alone or in combination with methotrexate or other DMARDs to treat adult
patients with
moderately to severely active rheumatoid arthritis who have had an inadequate
response to one
or more TNF antagonist therapies.
Combination Therapies for the Treatment of Arthritis
In practicing the methods of treatment or uses of the present disclosure, a
therapeutically
effective amount of an IL-17 antagonist, e.g., IL-17 binding molecule (e.g.,
IL-17 antibody or
antigen binding fragment thereof, e.g., secukinumab) or IL-17 receptor binding
molecule (e.g.,
IL-17 antibody or antigen binding fragment thereof) is administered to a
subject, e.g., a mammal
(e.g., a human). An IL-17 binding antagonist (e.g., secukinumab) may be
administered in
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accordance with the method of the disclosure either alone or in combination
with other agents
and therapies for treating RA, e.g., in combination with at least one anti-
rheumatic agent, such as
an immunosuppressive agent, a disease-modifying anti-rheumatic drug (DMARD), a
pain-
control drug, a steroid, a non-steroidal anti-inflammatory drug (NSAID), a
cytokine antagonist, a
bone anabolic, a bone anti-resotptive, and combinations thereof (e.g., dual
and tripple therapies).
When coadministered with one or more additional agents, an IL-17 antagonist
(e.g.,
secukinumab) may be administered either simultaneously with the other agent,
or sequentially.
If administered sequentially, the attending physician will decide on the
appropriate sequence of
administering the IL-17 antagonist (e.g., secukinumab) in combination with
other agents.
Non-steroidal anti inflammatory drugs and pain control agents useful in
combination with
the 1L-17 antagonist (e.g., secukinumab) for the treatment of RA patients,
e.g., high risk RA
patients, include, propionic acid derivative, acetic acid derivative, enolic
acid derivatives,
fenamic acid derivatives, Cox inhibitors, e.g., lumiracoxib, ibuprophen,
fenoprofen, ketoprofen,
flurbiprofen, oxaprozin, indornethacin, sulindac, etodolac, ketorolac,
nabumetone, aspirin,
naproxen, valdecoxib, etoricoxib, MK0966; rofecoxib, acetominophen, Celecoxib,
Diclofenac,
trarnadol, piroxicam, meloxicam, tenoxicam, droxicam, lornoxicam, isoxicam,
mefanamic acid,
=meelofenamic acid, flufenamic acid, tolfenamic, valdecoxib, parecoxib,
etodolac, indomethacin,
aspirin, ibuprophen, firocoxib.
Disease-modifying antirheumatic drugs (DMARDs) useful in combination with the
1L-17
antagonist (e.g., secukinumab) for the treatment of RA patients, e.g., high
risk RA patients,
include, rnethotrexate (MIX), antimalarial drugs (e.g., hydroxychloroquine and
chloroquine),
sulfasalazine, Leflunomide, azathioprine, cyclosporin, gold salts,
minocycline,
cyclophosphamide, D-penicillamine, minocycline, auranofin, tacrolimus,
myocrisin,
chlorambucil.
Biologic agents useful in combination with the 1L-17 antagonist (e.g.,
secukinumab) for
the treatment of RA patients, e.g., high risk RA patients, include, ADAL1MUMAB
(Humirae),
ETANERCEPT (Enbre10), 1NFLIXIMAB (Remicadee; TA450), CERTOLIZUMAB PEGOL
(Cimziat; CDP870),GOLIMUMAB (Simponit; CNI0148), ANAK1NRA (KineretT),
RITUXIMAB (Rituxant; MabTherat), ABATACEPT (Orencia0), TOCILIZUMAB
(RoActemra /Actemra0).
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Other biological agents useful in combination with the IL-17 antagonist (e.g.,
secukinumab) for the treatment of RA patients, e.g., high risk RA patients,
include, e.g., integrin
antagonist (TYSABRIS (natalizumab)), IL-1 antagonists (ACZ885 (hans)),
Analcinra
(Kinerete)), CD4 antagonists, IL-17 antagonists (LY2439821, RG4934, AMG827,
SCH900117,
R05310074, MEDI-571, CAT-2200), IL-23 antagonists, IL-20 antagonists, IL-6
antagonists,
TNF alpha antagonists (e.g., TNF alpha antagonists or TNF alpha receptor
antagonsits, e.g.,
pegsunercept, etc.), BLyS antagonists (e.g., Atacicept, Benlysta0/ LymphoStat-
Bs.i
(belimumab)), P38 Inhibitors, CD20 antagonists (Ocrclizumab, Ofatumumab
(Arzerra0)),
Interferon gamma antagonists (Fontolizumab).
Steroids (e.g., glucocorticoids) useful in combination with the IL-17
antagonist (e.g.,
secukinumab) for the treatment of RA patients, e.g., high risk RA patients,
include, Prednisolone,
Prednisone, dexamethasone, cortisol, cortisone, hydrocortisone,
methylprednisolone,
betamethasone, triamcinolone, beclometasome, fludrocottisone,
deoxycorticosterone, aldosterone
Other agents useful in combination with the 1L-17 antagonist (e.g.,
secukinumab) for the
treatment of RA patients, e.g., high risk RA patients, include,SB-681323, Rob
803, AZD5672,
AD 452, SMP 114, HZT-501, CP-195,543, Doxycycline, vancomycin, CRx-102,
AMG108,
pioglitazene, SBI-087, SC10-469, Cura-100, Oncoxin Viusid, TwHF, PF-04171327,
AZD5672, Methoxsalen, ARRY-438162, Vitamin D ergocalciferol, Milnacipran,
Paclitaxel,
GW406381, rosiglitazone, SC12267 (4SC-101); LY2439821, BTT-I023, ERB-041, ERB-
041,
KB003, CF101, ADL5859, MP-435, ILV-094, GSK706769, GW856553, ASK8007, MORI03,
1-IE3286, CP-690,550 (tasocitinib), REGN88 (SAR153191), TRU-015, BMS-582949,
SBI-087,
LY2127399, E-551S-551, H-55I, GSK3152314A, RWJ-445380, Tacrolimus
(Prograft11)),
RAD001, rapamune, raparnycin, fostamatinib, Fentanyl, XOMA 052, CNTO 136,
.11s1J 38518168,
Imatinib, ATN-I03, ISIS 104838, folic acid, folate, TNFa kinoid, MM-093, type
11 collagen,
VX-509, AMG 827 70, masitinib (AB1010), LY2127399, cyclosporine, SB-681323,
MK0663,
NNC 0151-0000-0000, ATN-103, CCX 354-C, CAM3001, LX3305, Cetrorelix, MDX-1342,
TMI-005, MK0873, CDP870, Tranilast, CF101, mycophenolic acid (and esters
thereof), VX-702,
GLPG0259, SB-681323, BG9924, ART621, LX3305, T-614, Fostamatinib disodium
(R935788),
CCI-779, ARRY-371797, CDP6038, AMG719, BMS-582949, GW856553, rosiglitazone, CH-
4051, CE-224,535, GSK1827771, GW274150, BG9924, PLX3397, TAK-783, INCB028050,
LY2127399, LY3009104, R788, Curcumin (LongvidaTm), Rosuvastatin, PR0283698,
AMG 714,
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84369879
MTRX1011A, Maraviroc, MEDI-522, MK0663, STA 5326 mesylate, CE-224,535, AMG108,
BG00012, ramipril, VX-702, CRx-102, LY2189102, S1314)87, SS-681323, CDP870,
Milnacipran, PD 0360324, PH-797804, AK106-001616, PG-760564, PLA-695, MX0812,
ALD518, Cobiprostone, somatxopin, tgAAC94 gene therapy vector, MK0359,
GW856553,
esomeprazole, everolimus, trastuzumab, bone anabolics and bone anti-
resorptives (e.g., PTH,
bisphosphonates (e.g., zoledronie acid), JAK1 and JAK2 inhibitors, pan JAI(
inhibitors, e.g.,
tetracyclic pyri done 6 (P6), 325, PF-956980, sclerostin antagonists (e.g.,
disclosed in
W009047356, W02000/32773, W02006102070, VS20080227138, US20100028335, US
20030229041, W02005003158, W02009039175 W02009079471, W003106657,
W02006119062, W008115732, W02005/014650, W02005/003158, W02006/119107,
W02008/061013, W02008/133722, W02008/115732, 1J57592429, US7879322, US7744874,
preferred anti- sclerostin antibodies and antigen binding fragments thereof
for use in the
disclosed methods, pharmaceutical compositions, kits and uses are found mV.
009047356
(equivalent to US7879322), W006119107 (equivalent to US7872 1061ind US
7592429)
and W008115732 (equivalent to US7744874)), denosumab, IL-6 antagonists,
CD20 antagonistis, CTLA4 antagnonists, IL-17 antagonists, IL-8 antagnoists, IL-
2I
antagonistis, IL-22 antagonist, integrin antagonists (Tysarbri
(natalizumab)), scleronstin
antagonists, VGEF antagnosits, CXCL antagonists, MMP antagonists, defensin
antagonists, IL-1 antagonists (including IL-1 beta antagonsits), and IL-23
antagonists
(e.g., receptor decoys, antagonistic antibodies, etc.).
In some embodiments, the IL47 antagonist (e.g., seculdnumab) is admininistered
in
combination with at least cme anti-rheumatic agent selected from the group
consisting.. an
immunosuppressive agent, a DMARD, a pain-control drug, a steroid, a NSAID, a
cytokine
antagonist, a bone anabolic, a bone anti-resorptive, and combinations thereof.
In some
embodiments, the IL-17 antagonist (e.g., secukinumab) is admininistered in
combination with a
TNF antagonist, a DMARD (e.g., MTX, e.g., weeldy doses of 7.5 -30 mg)), a
steroid, or
combinations thereof.
A skilled artisan will be able to discern the appropriate dosages of the above
agents for
co-delivery with the IL-17 antagonist (e.g., secukinumab).
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Kits and Articles of Manufacture
Disclosed herein are kits (i.e., an article of manufacture) useful for
providing an IL-17
antagonist, e.g., 1L-17 binding molecule (e.g., IL-17 antibody or antigen
binding fragment
thereof, e.g., secukinumab) or IL-17 receptor binding molecule (e.g., IL-17
antibody or antigen
binding fragment thereof), for the treatment of RA. Such kits may comprise an
1L-17 antagonist
(e.g., secukinumab) (e.g., in liquid or lyophilized form) or a pharmaceutical
composition
comprising the IL-17 antagonist (e.g., secukinumab). Additionally, such kits
may comprise
means for administering the IL-17 antagonist (e.g., secukinumab) (e.g., a
syringe or a prefilled
pen) and instructions for use. These kits may contain additional therapeutic
agents (described
supra) for treating RA, e.g., for delivery in combination with the enclosed IL-
17 antagonist (e.g.,
secukinumab).
Disclosed herein are kits comprising: a) an IL-17 antagonist, e.g., IL-17
binding molecule
(e.g., IL-17 antibody or antigen binding fragment thereof, e.g., secukinumab)
or IL-17 receptor
binding molecule (e.g., IL-17 antibody or antigen binding fragment thereof);
b) instructions for
administering the IL-17 antagonist (e.g., secukinumab), to a high risk RA
patient; c) means for
administering the 1L-17 antagonist (e.g., secukinumab) to the patient; and d)
optionally, a
therapeutically effective amount of at least one anti-rheumatic agent selected
from the group
consisting of an immunosuppressive agent, a disease-modifying anti-rheumatic
drug (DMARD),
a pain-control drug, a steroid, a non-steroidal anti-inflammatory drug
(NSAID), a cytokine
antagonist, a bone anabolic, a bone anti-resorptive, and combinations thereof.
In some
embodiments the high risk RA patient: a) is RF+, ACPA+, or both RF+ and ACPA+;
and b) has
a high level of CRP, a high ESR, or both a high level of CRP and a high ESR.
Disclosed herein are kits comprising: a) an IL-17 antagonist, e.g., IL-17
binding
molecule (e.g., 1L-17 antibody or antigen binding fragment thereof, e.g.,
secukinumab), or IL-17
receptor binding molecule (e.g., IL-17 antibody or antigen binding fragment
thereof) or a
pharmaceutical composition comprising an IL-17 antagonist, for use in the
treatment of
rheumatoid arthritis (RA) in a patient; and b) instructions describing how to
administer said
pharmaceutical composition to the patient, wherein the patient is
characterized as: i) being RF+,
ACPA+, or both RF+ and ACPA +; and ii) having a high level of CRP, a high ESR,
or both a
high level of CRP and a high ESR.
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Also disclosed herein are in vitro test methods for selecting a patient for
treatment of RA,
comprising determining if: i. the patient is RF+, ACPA+, or both RF+ and
ACPA+; and ii. the
patient has a high level of CRP, a high ESR, or both a high level of CRP and a
high ESR. In
some embodiments of the test method, the patient is expected to have an
improved therapeutic
response to the following regimen: a) either i) administering the patient
three doses of about 10
mg/kg of an 1L-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17
antibody or antigen
binding fragment thereof, e.g., secukinumab), or IL-17 receptor binding
molecule (e.g., 1L-17
antibody or antigen binding fragment thereof), the first dose being delivered
during week zero,
the second dose being delivered during week two, and the third dose being
delivered during
week four or ii) administering the patient weekly doses of about 75 mg or
about 150 mg of an
IL-17 antagonist, e.g., IL-17 binding molecule (e.g., IL-17 antibody or
antigen binding fragment
thereof, e.g., secukinumab), or IL-17 receptor binding molecule (e.g., IL-17
antibody or antigen
binding fragment thereof) for four or five (preferably five) doses; and b)
thereafter administering
the patient about 75 mg - about 300 mg of the IL-17 antagonist twice a month,
monthly, every
two months or every three months (preferably monthly), beginning during week
eight. These in
vitro methods may be performed on biological samples (e.g., blood, cartilage,
bone, serum, etc.)
extracted from the patient and may be used in determining the mode or course
of treatment for a
particular patient, e.g., whether to administer the IL-17 antagonist to the
patient (alone or in
combination with another compound, e.g., such as methotrexate), or whether to
choose
alternative therapies (e.g., anti-INF treatment).
Diagnostic Methods and Methods of Producing a Transmittable Form of
Information
Disclosed herein are methods for determining (predicting) the likelihood that
an RA
patient will respond favorably (e.g., reduced sign and symptoms, reduced joint
damage,
increased quality of life, etc.) to treatment with an an 1L-17 antagonist,
e.g., IL-17 binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof, e.g.,
secukinumab) or IL-17
receptor binding molecule (e.g., IL-17 antibody or antigen binding fragment
thereof). Such
methods will help physicians determine a course of treatment for a particular
RA patient.
Disclosed herein are also methods of determining the likelihood that an RA
patient will
respond to treatment with an an IL-17 antagonist, e.g., IL-17 binding molecule
(e.g., 1L-17
antibody or antigen binding fragment thereof, e.g., secukinumab) or IL-I 7
receptor binding
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molecule (e.g., IL-17 antibody or antigen binding fragment thereof),
comprising assaying a
sample from the patient for: a) rheumatoid factor (RF), anti-citrullinated
protein antibody
(ACPA), or RF and ACPA; and b) C-reactive protein (CRP), an erythrocyte
sedimentation rate
(ESR), or both CRP and an ESR, wherein the patient is likely to respond to
treatment of RA with
the 1L-17 antagonist (e.g., secukinumab) if the patient is RF+, ACPA +, or RF+
and ACPA +;
and the patient has a high level of CRP, a high ESR, or a high level of CRP
and a high ESR then
the patient. In some embodiments, prior to the step of assaying, a sample is
first obtained from
the patient (e.g.., by extracting blood or other biological tissue from the
patient).
Disclosed herein are also methods of predicting the likelihood that an RA
patient will
respond to treatment with an an IL-17 antagonist, e.g., IL-17 binding molecule
(e.g., IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab) or IL-17
receptor binding
molecule (e.g., IL-17 antibody or antigen binding fragment thereof)
comprising, determining
whether a patient: a) is RF+ and/or ACPA; and 2) has a high level of CRP
and/or a high ESR,
wherein the patient has an increased likelihood or responding to treatment
with the IL-17
antagonist if the patient is RF+, ACPA +, or RF+ and ACPA 4; and has a high
level of CRP, a
high ESR, or a high level of CRP and a high ESR. In some embodiments, prior to
the step of
determining, a sample is first obtained from the patient (e.g., by extracting
blood or other
biological tissue from the patient).
Disclosed herein are also methods of determining the likelihood that an RA
patient will
respond to treatment with an an 1L-17 antagonist, e.g., IL-17 binding molecule
(e.g., IL-17
antibody or antigen binding fragment thereof, e.g., secukinumab) or IL-17
receptor binding
molecule (e.g, 1L-17 antibody or antigen binding fragment thereof) comprising,
assaying a
sample from the patient for the baseline level of C-reactive protein (CRP),
wherein the patient is
likely to respond to treatment of RA with the IL-17 antagonist (e.g.,
secukinumab) if the patient
has elevated baseline CRP. In some embodiments, prior to the step of assaying,
a sample is first
obtained from the patient (e.g., by extracting blood or other biological
tissue from the patient).
For these diagnostic and prognostic methods, a sample from the patient may be
assayed
by any conventional means for detecting the factor (RF, ACPA , CRP, ESR) or
level of factor,
e.g., radial immunodiffttsion, electroimmunoassay, immunoturbidimetry, Western
blot, Norther
blot, ELISA, turbidimetric methods, fluorescence polarization immunoassay,
laser nephelometry,
an agglutination test, a nephelometry test, measuring the distance that red
blood cells precipitate
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in a tube over time (e.g., in the case of ESR), etc. The terms "assaying" and
"determining"
contemplate a transformation of matter, e.g., a transformation of a biological
sample, e.g., a
blood sample or other tissue sample, from one state to another by means of
subjecting that
sample to physical testing. Further, as used herein, the terms "assaying" and
"determining" are
used to mean testing and/or measuring. The phrase "assaying a sample from the
patient for..."
and the like is used to mean that a sample may be tested (either directly or
indirectly) for either
the presence or nonpresence of a given factor or for the level of a particular
factor. It will be
understood that, in a situation where the presence of a substance denotes one
probability and the
absence of a substance denotes a different probabiltity, then either the
presence or the absence of
such substance may be used to guide a therapeutic decision. In some
embodiments, prior to
treatment with the IL-17 antagonist, a skilled clinician will determine
whether a patient is a high
risk RA patient.
Typically, once the presence or absence of a particular factor, or the level
of a particular
factor is identified, physicians or genetic counselors or patients or other
researchers may be
informed of the result. Specifically, the result can be cast in a
transmittable form of information
that can be communicated or transmitted to other researchers or physicians or
genetic counselors
or patients. Such a form can vary and can be tangible or intangible. The
result with regard to the
presence or absence of RF and/or ACPA, and/or the level of CRP and/or ESR in
the individual
tested can be embodied in descriptive statements, diagrams, photographs,
charts, images or any
other visual forms. For example, images of gel electrophoresis of PCR products
can be used in
explaining the results. The statements and visual forms can be recorded on a
tangible media
such as papers, computer readable media such as floppy disks, compact disks,
etc., or on an
intangible media, e.g., an electronic media in the form of email or website on
intemet or intranet.
In addition, the result with regard to the presence or absence of RI: and/or
ACPA, and/or the
level of CRP and/or ESR in the individual tested can also be recorded in a
sound form and
transmitted through any suitable media, e.g., analog or digital cable lines,
fiber optic cables, etc.,
via telephone, facsimile, wireless mobile phone, interact phone and the like.
All such forms
(tangible and intangible) would constitute a "transmittable form of
information". Thus, the
information and data on a test result can be produced anywhere in the world
and transmitted to a
different location. For example, when a genotyping assay is conducted
offshore, the information
and data on a test result may be generated and cast in a transmittable form as
described above.
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The test result in a transmittable form thus can be imported into the U.S.
Accordingly, the
present disclosure also encompasses a method for producing a transmittable
form of information
on the presence or absence of RF and/or ACPA, and/or the level of CRP and/or
ESR in an
individual.
Disclosed herein are methods for producing a transmittable form of information
on a
patient having RA, comprising: a) assaying a sample from the patient for: 1)
rheumatoid factor
(RF), anti-eitrullinated protein antibody (ACPA), or RF and ACM; and 14C-
reactive protein
(CRP), an erythrocyte sedimentation rate (ESR), or both CRP and an ESR; and b)
embodying the
result of the assaying step in a transmittable form of information. In some
embodiments,
following the step of embodying, a health care provider (e.g., physician) uses
the transmittable
form of information in making a decision to prescribe one of the treatment
regimens disclosed
herien, using the 1L-17 antagonists disclosed herein. In some embodiments,
following the step
of embodying, a health care provider (e.g., physician) administers an IL-17
antagonist to the
patient if the transmittable form of information identities the patient as a
high risk RA patient.
General
The details of one or more embodiments of the disclosure are set forth in the
accompanying
description above. Although any methods and materials similar or equivalent to
those described
herein can be used in the practice or testing of the present disclosure, the
preferred methods and
materials are now described. Other features, objects, and advantages of the
disclosure will be
apparent from the description and from the claims. In the specification and
the appended
claims, the singular forms include plural referents unless the context clearly
dictates otherwise.
Unless defined otherwise, all technical and scientific terms used herein have
the same meaning
as commonly understood by one of ordinary skill in the art to which this
disclosure belongs.
The following Examples are presented in order to more fully illustrate the
preferred embodiments
of the disclosure. These examples should in no way be construed as limiting
the scope of the
disclosed patient matter, which is defined by the appended claims.
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EXAMPLES
Example 1: Use of secukinumab to treat rheumatoid arthritis (RA)
(CAIN457F2201)
Example 1.1 ¨ Study Design
The study population consists of a representative group of patients (male or
non-
pregnant, nonlactatin females) of at least 18 years of age, fulfilling ACR
1987 revised
classification criteria for RA for at least 3 months. Eligible patients were
required to present
active RA defined by >6 out of 28 tender joints and >6 out of 28 swollen
joints, and hsCRP >10
mWL OR ESR >28 mm/lst hour (nun/h) at the time of randomization to assure
ability to detect
response to treatment using ACR criteria. Eligible candidates were on MTX for
at least 3
months and at selection were currently treated with a stable weekly dose of
MIX (?7.5 mg/week
- 25 mg/week) for at least 4 weeks.
Adult RA patients (n=237) on methotrexate were randomized equally to receive
monthly
s.c. injections of secukinumab 25mg, 75mg, 150mg, 300mg or placebo. Patients
with previous
exposure to biologics were included in all cohorts (18 ¨ 22%). The primary end
point was the
proportion of patients achieving American College of Rheumatology (ACR) 20 at
week 16. At
Week 20 (Visit 8), patients who were randomized to placebo at Week 0 or who
were randomized
to secukinumab but did not achieve an ACR20 response at Week 16 were re-
assigned to receive
double blind treatment up to Week 48, with a final efficacy assessment
performed at Week 52,
and a follow up visit at Week 60, as follows starting at Week 20 (Figure 1):
= Patients on active treatment who were responders continued on their dose
regimen;
= All placebo patients were switched to active treatment 150 mg s.c. q4wk
(monthly),
independent of disease activity;
= All patients treated with 25 mg or 75 mg secukinumab q4wk who were non-
responders
were switched to 150 mg s.c. q4wk;
= Non-responders in the 150 mg group were switched to the next highest dose
- 300 mg s.c.
q4wk;
= All patients on 300 mg group remained on their respective dose to assess
if exposure
longer than 16 weeks will induce a clinical response in these patients.
Efficacy assessments are ACR20, 50, 70 (Pelson et al. (1995) Arthritis Rheum;
38(6):727-
35) and DAS28 response/remission (Fransen et al (2003) Ann Rheum Dis; 62(Suppl
1): 10;
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Prevoo et al. (1995) Arthritis Rheum; 38(1):44-48). The primary efficacy
variable is the clinical
response to treatment according to ACR20 individual improvement in disease
activity at Week
16. Results are assessed by the proportion of patients achieving the ACR20
response criteria at
Week 16. A patient will be considered a responder according to ACR20 criteria
if he/she has:
A) at least 20 % improvement in the two following measures:
= tender 28-joint count
= swollen 28-joint count; and
B) at least 20 % improvement in at least 3 of the following 5 measures:
= Patient's assessment of RA pain (VAS 100 mm)
= Patient's global assessment of disease activity (VAS 100 mm)
= Physician's global assessment of disease activity (VAS 100 mm)
= Patient self-assessed disability (Health Assessment Questionnaire [HAQC)]
score)
= Acute phase reactant (C-reactive protein [hsCRP] or erythrocyte
sedimentation rate
(ESR))
Additional measures include: ACR50 (50 % improvement in item B (above) in at
least 3 of the 5
measures and 50 % improvement in the swollen and tender joint count) and ACR70
(70 %
improvement in item B (above) in at least 3 of the 5 measures and 70 %
improvement in the
swollen and tender joint count).
The DAS28 (Disease Activity Score ¨28) is a well-established measure of
disease activity in
RA. The score is calculated by a complex mathematical formula, which includes
the number of
tender and swollen joints (out of a total of 28), the erythrocyte
sedimentation rate (ESR) or
hsCRP, and the patient's global assessment of global health (indicated by
marking a 100 mm line
between very good and very bad). A DAS28 score greater than 5.1 implies active
disease, less
than 3.2 well controlled disease, and less than 2.6 remission.
In order to calculate the DAS28, information about the following disease
variables is needed:
= The number of swollen joints and tender joints should be assessed using
28-joint count
(tender28 and swo11en28).
= The erythrocyte sedimentation rate (ESR) should be measured in mm/hour.
= The patient's general health (GH) or global disease activity measured on
a Visual Analogue
Scale (VAS) of 100 mm (both are useable for this purpose) must be obtained.
Using this data, the DAS28 can be calculated using the following formula:
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DAS28 = 0.56 * sqrt(tender28) + 0.28 * sqrt(swol 1 en28) + 0.70 * In(ESR) +
0.014 * GEl
C-reactive protein (CRP) may be used as an alternative to ESR in"tlit
calculation of the
DAS or DAS28, using the formulas below. CRP is a more direct measure of
inflammation than
ESR, and it is more sensitive to short-term changes. CRP production is
associated with
radiological progression in RA, and is considered at least as valid as ESR to
measure RA disease
activity. Another advantage of determination of CRP is that waiting time for
the laboratory result
is shorter and that in case of multicenter studies a central laboratory can be
used. The following
formulas to calculate the DAS28 using CRP (mg/L) give good estimations of the
original DAS28
values on a group level.
DAS28-4(erp) = 0.56*sqrt(TJC28) + 0.28*sqrt(SJC28) + 0.36*In(CRP+1) + 0.014*GH
+ 0.96
TJC28: 28 Tender joint count; SIC28: 28 Swollen joint count; CRP: C-reactive
protein: GH:
General Health. a 100min. Visual Analogue Scale.
The HAQO is a validated measure of physical disability and functional status.
It has four
dimensions: disability, pain, drug side effects and dollar costs, although,
the latter three are rarely
used in clinical trials. In this trial only the disability dimension was used.
The disability
dimension consists of 20 multiple choice items concerning difficulty in
performing eight
common activities of daily living; dressing and grooming, arising, eating,
walking, reaching,
personal hygiene, gripping and activities. Subjects choose from four response
categories, ranging
from 'without any difficulty' to 'unable to do'. The ACR Rheumatology
Committee on Outcome
Measures in RA recommends the use of this questionnaire in clinical trials.
The HAQC is
scored in accordance with the recommendation from the developers outlined in
the "HAQ
PACK" from Stanford University, California.
Example 1.2¨ Statistical Analysis
To test superiority of secukinumab treatment groups over placebo, the ACR20
responder
rate (proportion) was compared against placebo for each of the secukinumab-
treated groups
based on a logistic regression model with treatment, center and baseline DAS28
as covariates.
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The DAS28-CRP change from baseline was analyzed using an analysis of
covariance
(ANCOVA, SAS PROC MIXED) fixed effects model with treatment as main effect and
correcting for the covariates center and baseline value. All statistical tests
for pairwise
comparisons of secukinumab treatment groups vs placebo were performed at two-
sided 5%
significance level. The method of last observation carried forward (LOCF) was
used for missing
values for efficacy variables. Figures were produced presenting response over
time or at specific
time points up to Week 16 (or Week 52, as appropriate). Of note, for figures
presenting results
up to Week 52, only data from patients continuing at Week 24 were included.
The full analysis set (FAS) was used for the reporting of the efficacy
results. The FAS
comprised all patients to whom study drug had been assigned. Following the
intent-to-treat (ITT)
principle, patients were analyzed according to the treatment and stratum they
were assigned to at
randomization.
Example 1.3 Week 16 Results
Demographics and baseline characteristics were comparable across all groups.
ACR20
responders at Week 16 were higher in the secukinumab 75mg, 150mg and 300mg
dose groups
(46.9%, 46.5% and 53.7%, respectively) compared to placebo (36.0%) and
compared to
secukinumab 25mg (34%) (Figure 2A). However, these results did not achieve
statistical
significance due to a marked and unexplained increase in ACR20 in the placebo
group between
Week 12 (24%) and 16 (36%). Clinically relevant reductions in DAS28-CRP were
observed in
the secukinumab 75-300mg treatment groups vs. placebo (Figure 5A). Serum CRP
levels at
Week 16 were markedly reduced in secukinumab 75-300mg groups vs. placebo (p=
0.0012,
0.0081 and 0.0241) (data not shown). ACR50 and ACR70 showed consistent greater
improvements with secukinumab 75-300mg doses vs. placebo over 16 weeks
(Figures 3A and
4A). There was about a 4-fold average reduction from baseline in the HAQO
score at week 16 in
the 150-300 mg groups compared to placebo (Figure 6A).
Example 1.4 ¨ Week 24 Results
By Week 24, ACR20 responses were maintained and DAS28 CRP responses further
improved in the 75-300 mg groups with secukinumab treatment between week 16
and 24.
HAQ scores were either maintained or futher reduced in the 75 ¨ 300 mg groups
with groups
with secukinumab treatment between week 16 and 24. The 75 - 300 mg ACR20
responder
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treatment groups exhibited an early improvement in HAQC scores over time
through Week 24.
ACR50 responses further improved from 19 - 24% (75 mg), 21 - 25% (150 mg) and
19 - 24%
(300mg) in patients originally randomized to the respective dose cohorts, part
of whom had a
dose escalation at Week 20; a similar improvement was seen in ACR70 responses
in the 75 mg ¨
150 mg groups. An increase in the ACR20/50/70 response in the patients
randomized to placebo
between Week 16 and 24 can also be noted. All patients on placebo up to Week
16 were
switched to secukinumab 150 mg at Week 20.
Example 1.5 ¨ Week 52 Results
With respect to efficacy of secukinumab over time patients who had been
responders at
week 16 generally maintained their responses in terms of ACR 20 (Figure 2C),
ACR50 (Figure
3B) and ACR70 (Figure 4B) with best responses seen in the 150 mg responder
cohort. The same
was also true for DAS28-CRP and HAQ scores reponses which were maintained in
responders at
week 16 over time through week 52 again with best responses observed in the
150 mg responder
cohort (Figure. 5B, 6B). ACR20, 50 and 70 responses at week 52 are shown in
Figure 7 again
with highest responses for all these parameters in the 150 mg responder
cohort.
Biological failure patients were 18-22% in each cohort at study start. Of
patients
previously exposed to biologics who were dosed with 150 mg secukinumab after
Week 20, 62A
(8 of 13) achieved an ACR20, 38% (5 of 13) achieved an ACR50 and 23% achieved
an ACR 70
at Week 52. This provides evidence that secukinumab is capable of treating RA
in patients who
failed anti-T'NF and other biological therapy.
Example 2: Analysis of High Risk RA Patient Subset in CAIN457F2201
Example 2.1 ¨ Statistical Analysis
In searching for indicators predictive of an RA patient's response to
treatment with
secukinumab, we analyzed two of the four 2010 ACR/EULAR scoreable criteria
(see Table 1) to
determine how (and whether) these criteria may influence response to treatment
with
secukinumab with data from the CAIN457F2201 trial database. First, we analyzed
serology to
determine whether the patient is RF + and/or anti-CCP + (i.e., ACPA +).
Second, we analyzed
the presence of acute-phase reactants to determine whether the patient has a
high level of C-
reactive protein (CRP) and/or a high erythrocyte sedimentation rate (ESR).
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Analysis was mainly performed with summary statistics (proportions for binary
response
variables and average for continuous variables) produced over time to observe
responses up to
Week 16 (or 52, for patients who continued at Week 24). The method of last
observation carried
forward (LOCF) was used for missing values for efficacy variables. Data were
produced
presenting response over time or at specific time points up to Week 16 (or
Week 52, as
appropriate). Of note, for data showing results up to Week 52, only data from
patients
continuing at Week 24 were included.
Example 2.2 - Analysis of responses to secukinumab in high risk RA patients
The analysis of subgroup of patients with "high risk" (i.e., "high risk RA
patients") for
disease progression (based on high CRP and/or ESR, and positive RF and/or
ACPA) showed
promising results in the secukinumab treated patients compared to the CA
IN457F2201 overall
trial results, while the responses in the placebo group did not show similar
increased trend. In
terms of ACR20, in the FAS, 46.9, 46.5, 53.7 and 36 % response was observed at
Week 16 in the
secukinumab 75, 150, 300 mg and placebo (Figure 2A and Table 6), respectively,
whereas 48.8,
57.6, 58.1 and 41.0 % responses was observed at Week 16 in the high risk
subgroup (Figure 2B
and Table 6). Similarly, increased response rates were observed at Weeks 16
and 52 in the high
risk subgroup compared to the FAS, and in other variables such as ACR50/70
(Table 6),
DAS28-CRP (Table 7), and HAQC (data not shown).
Summaries of ACR20/50/70 % and DAS28-CRP responses at weeks 16 and 52 in the
FAS, the high risk RA patients, and the non-high risk RA patients are provided
in Table 6
(ACR) and Table 7 (DAS28-CRP). Graphical depiction of the ACR20/50/70 % and
DA528-
CRP responses at week 16 in the high risk RA patients and the non-high risk RA
patients are
provided in Figures 8A and 8B.
ACR Responses
Week 16 Placebo 25 mg 75 mg 150 mg 300 mg
FAS ACR20 18/50(36.0%) 18/53(34.0%) 23/49(469%) 20143(46.5%) 22/41
(53.7%)
ACR50 3/50(6.0%) 8/53(15.1%) 9/49(18.4%) 9/43 (20.9%)
7/41(17.1%)
ACR70 0/50 (0.0%) 4/53 (7.5%) 1/49(2.0%) 2/43 (4.m) 2/41
(4.9%)
High risk RA ACR20 16/39 (41.0%)
15/44(34.1%) 21/43(48.8%) 19/33(57.6%) 18131 (58.1%)
patient ACR50 2/39(5.1%) 7/44(15.9%) 8/43(18.6%) 8/33 (24.2%)
5/31 (16.1%)
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subgroup ACR70 0/39 (0.0%) 3/44(6.8%) 1/43 (2.3%) 2/33
(6.1%) 1/31 (3.2%)
Non High risk ACR20 2/11 (18_2%) 3/9(33.3%) 2/6(33.3%) 1/10
(10.0%) 4/10(40.0%)
RA patient ACR50 1/11 (9.1%) 119(11.1%) 1/6(16.7%) 1/10 0
0.0%) 2/10(20.0%)
subgroup ACR70 0/11 (0.0%) 1/9(11.1%) 0/6(0.0%) 0110(0.0
,'.) 1/10(10.0%)
Week 52 Placebo 25 mg 75 mg 150 mg 300 mg
FAS ACR20 27/44 (61.4%) 18145(40.0%) 26/46(56.5%) 26/43 (60.5%)
17137(45.9%)
ACR50 17/44(38.6%) 5/45 (11.1%) 13/46(28.3%) 13/43 (30.2%)
5/37(13.5%)
ACR70 5/44 (11.4%) 2/45 (4.4%) 5/46(10/9%) 4/43(9.3%)
3/37 (8.1%)
High risk RA ACR20 22/33 (66.7 A)
18/38(47.4%) 20/40(50.0%) 24/33 (72.7%) 12/28(42.9%)
patient ACR50 14/33 (42.4%) 4/38 (10.5%) 11/40(27.5%) 13/33
(39.4%) 5128(17.9%)
subgroup ACR70 5/33 (15.2%) 2/38(53%) 4/40 (10.0%) 1W33
(30.3%) 2/28 (7.1%)
Nom High risk ACR20 5/11 (45.5%) 3/7(42.9%) 3/6(500%) 3/10(30.0%)
419(44.4%)
RA patient ACR50 3/1I (27.3%) 1/7(14.3 !.) 2/6 (33.3%)
1/10(10.0%) 3/9(33.3%)
subgroup ACR70 0/11 (0.0%) 1/7(14.3%) 1/6(16.7%) 0/10(0.0%)
1/9(11.1%)
Table 6: ACR responses (LOCF) at weeks 16 and 52 in FAS, high risk RA
patients, and non high risk RA patients.
Median change from baseline in DAS28-ESR
Week 16 Placebo 25 mg 75 mg 150 mg 300 mg
FAS -0.97 -0.84 -1.40 -1.23 -1.38
High risk RA patient subgroup -1.00 -0.65 -1.22 -1.81 -1.23
Non High risk RA patient subgroup .Ø88 -1.17 -1.33 -0.27
-0.77
Week 52 Placebo 25 mg 75 mg 150 mg 300 mg
FAS -1.68 -1.31 -1.51 -2.19 -1.33
High risk RA patient subgroup -2.00 -1.33 -1.51 -2.87 -1.36
Non High risk RA patient subgroup 4.07 -1.11 -1.40 -1.43 -1.29
Table 7: DAS28-ESR median change from baseline at weeks 16 and 52 in FAS, high
risk RA
patients, and non high risk RA patients.
Note, for Table 6 and 7, week 52 data is presented by the original assigned
treatment.
Titration was performed for ACR20 non-responders (and all placebo patients)
starting at week
16. 18/45
'original' 25 mg patients remained on 25 mg while 27 patients were up-titrated
to
150 mg. Likewise, 23/46 'original' 75 mg patients remained on 75 mg while 23
were up-titrated
to 150 mg. 20/43 'original' 150 mg patients remained on 150 mg and 23 were up-
titrated to 300
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mg. All 44 'original' placebo patients were switched to 150 mg and all
'original' 300 mg
patients remained on 300 mg.
As can be seen from Tables 6 and 7, as well as Figures 8A and 8B, high risk RA
patients
generally display an improved response to IL-17 inhibition in comparison to
non-high risk RA
patients. Comparing the ACR20% and ACR50% response between the high risk RA
patients
and non-high risk RA patients at week 16 (Table 6 and Figure 8A), a dose
response can be seen
in the high risk RA patients in response to IL-17 inhibition by secukinumab. A
similar dose
response is seen in the DAS28-CRP score in high risk RA patients at weeks 16
and 52 (Table 7
and Figure 8B). Futhermore, ACR20% responses at week 16 in the high risk RA
patient subset
are improved at all doses of secukinumab above 25 mg in comparison to the
ACR20% responses
seen in non-high risk RA patients (Table 6 and Figure 8A). In addition, the
ACR50/70%
response at weeks 16 and 52 in high risk RA patients treated with 150 mg
secukinumab is higher
than the ACR50/70% response in non-high risk RA patients treated with the same
secukinumab
dose. A similar result is seen in the DAS28-CRP score for 150 mg secukinumab
at weeks 16 and
for all doses of secukinumab at week 52 (Table 7 and Figure 88).
Example 3: Patients with Elevated Baseline CRP Benefit from Secukinumab
Example 3.1 ¨ Study Design
To evaluate the dose-response relationship of DAS28 and ACR responses at week
16 by
baseline high sensitivity (Its) CRP levels in patients with RA treated with
different doses of
secukinumab compared to placebo.
As described previously, in study CAIN457F2201, adult RA patients (n=237) on
methotrexate were randomized to receive monthly s.c. injections of secukinumab
25mg, 75mg,
150mg, 300mg, or placebo. We assessed dose relationship of DAS28 and ACR
responses at
week 16 by different baseline hsCRP levels (a0mg/L, ?_10mg/L, ?.20mg/L, and
?.30mg/L).
Example 3.2 ¨ Results
Demographics and baseline characteristics were comparable across all groups. A
rapid
reduction in DAS28-CRP was observed as early as week 2 in patients on
secukinumab 75 mg,
150 mg, 300 mg groups. By week 12, these patients achieved a clinically
meaningful DAS28
reduction of >1.2 compared with those on placebo (P<0.05). These responses
were sustained up
to week 16 (Table 8). As seen in Table 8 and Figure 9, there is a dose-
dependent relationship
- 88 -
Date Regue/Date Received 2021-04-29
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